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Saturday, July 7, 2018

Happy Birthday Robert A. Heinlein

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Robert A. Heinlein
Heinlein-face.jpg
Heinlein signing autographs at Worldcon 1976
BornRobert Anson Heinlein
July 7, 1907
Butler, Missouri, U.S.
DiedMay 8, 1988 (aged 80)
Carmel, California, U.S.
Pen nameAnson MacDonald
Lyle Monroe
John Riverside
Caleb Saunders
Simon York
OccupationNovelist, short story author, essayist, screenwriter, aeronautical engineer, lieutenant junior grade USN[1]
NationalityAmerican
Alma mater
Period1939–1988
GenreScience fiction, fantasy
Notable works
Spouse

Signature

Robert Anson Heinlein (/ˈhnln/;[2][3][4] July 7, 1907 – May 8, 1988) was an American science-fiction writer. Often called the "dean of science fiction writers",[5] he wrote sometimes controversial works which continue to have an influential effect on the science-fiction genre, and on modern culture more generally.

Heinlein became one of the first American science-fiction writers to break into mainstream magazines such as The Saturday Evening Post in the late 1940s. He was one of the best-selling science-fiction novelists for many decades, and he, Isaac Asimov, and Arthur C. Clarke are often considered the "Big Three" of English-language science fiction authors. Notable Heinlein works include Stranger in a Strange Land,[9] Starship Troopers (which helped mould the space marine and mecha archetypes) and the libertarian novel The Moon Is a Harsh Mistress.[10]

A writer also of numerous science-fiction short stories, Heinlein was one of a group of writers who came to prominence under the editorship (1937-1971) of John W. Campbell at Astounding Science Fiction magazine; though Heinlein denied that Campbell influenced his writing to any great degree.

Within the framework of his science-fiction stories, Heinlein repeatedly addressed certain social themes: the importance of individual liberty and self-reliance, the obligation individuals owe to their societies, the influence of organized religion on culture and government, and the tendency of society to repress nonconformist thought. He also speculated on the influence of space travel on human cultural practices.

Heinlein was named the first Science Fiction Writers Grand Master in 1974.[11] Four of his novels won Hugo Awards, a different four won Nebula Awards. In addition, fifty years after publication, five of his works were awarded "Retro Hugos"—awards given retrospectively for works that were published before the Hugo Awards came into existence.[12] In his fiction, Heinlein coined terms that have become part of the English language, including "grok", "waldo", and "speculative fiction", as well as popularizing existing terms like "TANSTAAFL", "pay it forward", and "space marine". He also anticipated mechanical computer-aided design with "Drafting Dan" and described a modern version of a waterbed in his novel The Door into Summer,[13] though he never patented nor built one. In the first chapter of the novel Space Cadet he anticipated the cell-phone, 35 years before Motorola invented the technology.[14] Several of Heinlein's works have been adapted for film and television.

Life

Midshipman Heinlein, from the 1929 U.S. Naval Academy yearbook

Birth and childhood

Heinlein was born on July 7, 1907 to Rex Ivar Heinlein (an accountant) and Bam Lyle Heinlein, in Butler, Missouri. He was a 6th-generation German-American: a family tradition had it that Heinleins fought in every American war starting with the War of Independence.[15]

His childhood was spent in Kansas City, Missouri.[16] The outlook and values of this time and place (in his own words, "The Bible Belt") had a definite influence on his fiction, especially his later works, as he drew heavily upon his childhood in establishing the setting and cultural atmosphere in works like Time Enough for Love and To Sail Beyond the Sunset.

Navy

Heinlein's experience in the U.S. Navy exerted a strong influence on his character and writing. He graduated from the U.S. Naval Academy in Annapolis, Maryland, with the class of 1929 and went on to serve as an officer in the Navy. He was assigned to the new aircraft carrier USS Lexington in 1931, where he worked in radio communications, then in its earlier phases, with the carrier's aircraft. The captain of this carrier was Ernest J. King, who served as the Chief of Naval Operations and Commander-in-Chief, U.S. Fleet during World War II. Heinlein was frequently interviewed during his later years by military historians who asked him about Captain King and his service as the commander of the U.S. Navy's first modern aircraft carrier.

Heinlein also served aboard the destroyer USS Roper in 1933 and 1934, reaching the rank of lieutenant. His brother, Lawrence Heinlein, served in the U.S. Army, the U.S. Air Force, and the Missouri National Guard, and reaching the rank of major general in the National Guard.[17]

In 1929, Heinlein married Elinor Curry of Kansas City.[18] However, their marriage only lasted about a year.[3] His second marriage in 1932 to Leslyn MacDonald (1904–1981) lasted for 15 years. MacDonald was, according to the testimony of Heinlein's Navy friend, Rear Admiral Cal Laning, "astonishingly intelligent, widely read, and extremely liberal, though a registered Republican,"[19] while Isaac Asimov later recalled that Heinlein was, at the time, "a flaming liberal".[20] (See section: Politics of Robert Heinlein.)

California

In 1934, Heinlein was discharged from the Navy due to pulmonary tuberculosis. During a lengthy hospitalization, he developed a design for a waterbed.[21]

After his discharge, Heinlein attended a few weeks of graduate classes in mathematics and physics at the University of California at Los Angeles (UCLA), but he soon quit either because of his health or from a desire to enter politics.[22]

Heinlein supported himself at several occupations, including real estate sales and silver mining, but for some years found money in short supply. Heinlein was active in Upton Sinclair's socialist End Poverty in California movement in the early 1930s. When Sinclair gained the Democratic nomination for Governor of California in 1934, Heinlein worked actively in the campaign. Heinlein himself ran for the California State Assembly in 1938, but was unsuccessful.[23]

Author

Robert A. Heinlein, L. Sprague de Camp, and Isaac Asimov, Philadelphia Navy Yard, 1944.

While not destitute after the campaign — he had a small disability pension from the Navy — Heinlein turned to writing to pay off his mortgage. His first published story, "Life-Line", was printed in the August 1939 issue of Astounding Science Fiction.[24] Originally written for a contest, he sold it to Astounding for significantly more than the contest's first-prize payoff. Another Future History story, "Misfit", followed in November.[24] Others saw Heinlein's talent and stardom from his first story,[25] and he was quickly acknowledged as a leader of the new movement toward "social" science fiction. In California he hosted the Mañana Literary Society, a 1940–41 series of informal gatherings of new authors.[26] He was the guest of honor at Denvention, the 1941 Worldcon, held in Denver. During World War II, he did aeronautical engineering for the U.S. Navy, also recruiting Isaac Asimov and L. Sprague de Camp to work at the Philadelphia Naval Shipyard in Pennsylvania.[citation needed]

As the war wound down in 1945, Heinlein began to re-evaluate his career. The atomic bombings of Hiroshima and Nagasaki, along with the outbreak of the Cold War, galvanized him to write nonfiction on political topics. In addition, he wanted to break into better-paying markets. He published four influential short stories for The Saturday Evening Post magazine, leading off, in February 1947, with "The Green Hills of Earth". That made him the first science fiction writer to break out of the "pulp ghetto". In 1950, the movie Destination Moon — the documentary-like film for which he had written the story and scenario, co-written the script, and invented many of the effects — won an Academy Award for special effects. Also, he embarked on a series of juvenile novels for the Charles Scribner's Sons publishing company that went from 1947 through 1959, at the rate of one book each autumn, in time for Christmas presents to teenagers. He also wrote for Boys' Life in 1952.

Robert and Virginia Heinlein in a 1952 Popular Mechanics article, titled "A House to Make Life Easy". The Heinleins, both engineers, designed the house for themselves with many innovative features.

At the Philadelphia Naval Shipyard he met and befriended a chemical engineer named Virginia "Ginny" Gerstenfeld. After the war, her engagement having fallen through, she moved to UCLA for doctoral studies in chemistry and made contact again.

As his second wife's alcoholism gradually spun out of control,[27] Heinlein moved out and the couple filed for divorce. Heinlein's friendship with Virginia turned into a relationship and on October 21, 1948 — shortly after the decree nisi came through — they married in the town of Raton, New Mexico shortly after setting up housekeeping in Colorado. They remained married until Heinlein's death.

As Heinlein's increasing success as a writer resolved their initial financial woes, they had a house custom built with various innovative features, later described in an article in Popular Mechanics. In 1965, after various chronic health problems of Virginia's were traced back to altitude sickness, they moved to Santa Cruz, California which is at sea level. They built a new residence in the adjacent village of Bonny Doon, California.[28] Robert and Virginia designed and built their California house themselves, which is in a circular shape. Previously they had also designed and built their Colorado house.

Ginny undoubtedly served as a model for many of his intelligent, fiercely independent female characters.[29][30] She was a chemist, rocket test engineer, and held a higher rank in the Navy than Heinlein himself. She was also an accomplished college athlete, earning four letters.[31] In 1953–1954, the Heinleins voyaged around the world (mostly via ocean liners and cargo liners, as Ginny detested flying), which Heinlein described in Tramp Royale, and which also provided background material for science fiction novels set aboard spaceships on long voyages, such as Podkayne of Mars and Friday. Ginny acted as the first reader of his manuscripts. Isaac Asimov believed that Heinlein made a swing to the right politically at the same time he married Ginny.

The Heinleins formed the small "Patrick Henry League" in 1958, and they worked in the 1964 Barry Goldwater Presidential campaign.[20]
When Robert A. Heinlein opened his Colorado Springs newspaper on April 5, 1958, he read a full-page ad demanding that the Eisenhower Administration stop testing nuclear weapons. The science fiction author was flabbergasted. He called for the formation of the Patrick Henry League and spent the next several weeks writing and publishing his own polemic that lambasted "Communist-line goals concealed in idealistic-sounding nonsense" and urged Americans not to become "soft-headed."[32]
Robert and Virginia Heinlein in Tahiti, 1980.

Heinlein had used topical materials throughout his juvenile series beginning in 1947, but in 1959, his novel Starship Troopers was considered by the editors and owners of Scribner's to be too controversial for one of its prestige lines, and it was rejected.[33]

Heinlein found another publisher (Putnam), feeling himself released from the constraints of writing novels for children. He had told an interviewer that he did not want to do stories that merely added to categories defined by other works. Rather he wanted to do his own work, stating that: "I want to do my own stuff, my own way".[34] He would go on to write a series of challenging books that redrew the boundaries of science fiction, including Stranger in a Strange Land (1961) and The Moon Is a Harsh Mistress (1966).

Later life and death

Beginning in 1970, Heinlein had a series of health crises, broken by strenuous periods of activity in his hobby of stonemasonry. (In a private correspondence, he referred to that as his "usual and favorite occupation between books".)[35] The decade began with a life-threatening attack of peritonitis, recovery from which required more than two years, and treatment of which required multiple transfusions of Heinlein's rare blood type, A2 negative.[36] As soon as he was well enough to write again, he began work on Time Enough for Love (1973), which introduced many of the themes found in his later fiction.

In the mid-1970s, Heinlein wrote two articles for the Britannica Compton Yearbook.[37] He and Ginny crisscrossed the country helping to reorganize blood donation in the United States in an effort to assist the system which had saved his life.[36] At science fiction conventions to receive his autograph, fans would be asked to co-sign with Heinlein a beautifully embellished pledge form he supplied stating that the recipient agrees that they will donate blood. He was the guest of honor at the Worldcon in 1976 for the third time at MidAmeriCon in Kansas City, Missouri. At that Worldcon, Heinlein hosted a blood drive and donors' reception to thank all those who had helped save lives. While vacationing in Tahiti in early 1978, he suffered a transient ischemic attack. Over the next few months, he became more and more exhausted, and his health again began to decline. The problem was determined to be a blocked carotid artery, and he had one of the earliest known carotid bypass operations to correct it. Heinlein and Virginia had been smokers,[38] and smoking appears often in his fiction, as do fictitious strikable self-lighting cigarettes.

In 1980 Robert Heinlein was a member of the Citizens Advisory Council on National Space Policy, chaired by Jerry Pournelle, which met at the home of SF writer Larry Niven to write space policy papers for the incoming Reagan Administration. Members included such aerospace industry leaders as former astronaut Buzz Aldrin, General Daniel O. Graham, aerospace engineer Max Hunter and North American VP and Space Shuttle manager George Merrick. Policy recommendations from the Council included ballistic missile defense concepts which were later transformed into what was called the Strategic Defense Initiative by those who favored it, and "Star Wars" as a term of derision coined by Senator Ted Kennedy. Heinlein assisted with Council contribution to the Reagan "Star Wars" speech of Spring 1983.

Asked to appear before a Joint Committee of the U.S. House and Senate that year, he testified on his belief that spin-offs from space technology were benefiting the infirm and the elderly. Heinlein's surgical treatment re-energized him, and he wrote five novels from 1980 until he died in his sleep from emphysema and heart failure on May 8, 1988.

At that time, he had been putting together the early notes for another World as Myth novel. Several of his other works have been published posthumously.[39]

After his death, his wife Virginia Heinlein issued a compilation of Heinlein's correspondence and notes into a somewhat autobiographical examination of his career, published in 1989 under the title Grumbles from the Grave. Heinlein's archive is housed by the Special Collections department of McHenry Library at the University of California at Santa Cruz. The collection includes manuscript drafts, correspondence, photographs and artifacts. A substantial portion of the archive has been digitized and it is available online through the Robert A. and Virginia Heinlein Archives.[40]

Works

Heinlein published 32 novels, 59 short stories, and 16 collections during his life. Four films, two television series, several episodes of a radio series, and a board game have been derived more or less directly from his work. He wrote a screenplay for one of the films. Heinlein edited an anthology of other writers' SF short stories.

Three nonfiction books and two poems have been published posthumously. For Us, The Living: A Comedy of Customs was published posthumously in 2003; Variable Star, written by Spider Robinson based on an extensive outline by Heinlein, was published in September 2006. Four collections have been published posthumously.[24]

Series

Over the course of his career Heinlein wrote three somewhat overlapping series.

Early work, 1939–1958

Heinlein began his career as a writer of stories for Astounding Science Fiction magazine, which was edited by John Campbell. The science fiction writer Frederik Pohl has described Heinlein as "that greatest of Campbell-era sf writers".[41] Isaac Asimov said that, from the time of his first story, the science fiction world accepted that Heinlein was the best science fiction writer in existence, adding that he would hold this title through his lifetime.[42]

Alexei and Cory Panshin noted that Heinlein's impact was immediately felt. In 1940, the year after selling 'Life-Line' to Campbell, he wrote three short novels, four novelettes, and seven short stories. They went on to say that "No one ever dominated the science fiction field as Bob did in the first few years of his career."[43] Alexei expresses awe in Heinlein's ability to show readers a world so drastically different from the one we live in now, yet have so many similarities. He says that "We find ourselves not only in a world other than our own, but identifying with a living, breathing individual who is operating within its context, and thinking and acting according to its terms."[44]
 
Heinlein's 1942 novel Beyond This Horizon was reprinted in Two Complete Science-Adventure Books in 1952, appearing under the "Anson McDonald" byline even though the book edition had been published under Heinlein's own name four years earlier
The opening installment of The Puppet Masters took the cover of the September 1951 issue of Galaxy Science Fiction.

The first novel that Heinlein wrote, For Us, The Living: A Comedy of Customs (1939), did not see print during his lifetime, but Robert James tracked down the manuscript and it was published in 2003. Though some regard it as a failure as a novel,[16] considering it little more than a disguised lecture on Heinlein's social theories, some readers took a very different view. In a review of it, John Clute wrote: "I'm not about to suggest that if Heinlein had been able to publish [such works] openly in the pages of Astounding in 1939, SF would have gotten the future right; I would suggest, however, that if Heinlein, and his colleagues, had been able to publish adult SF in Astounding and its fellow journals, then SF might not have done such a grotesquely poor job of prefiguring something of the flavor of actually living here at the onset of 2004."[45]

For Us, the Living was intriguing as a window into the development of Heinlein's radical ideas about man as a social animal, including his interest in free love. The root of many themes found in his later stories can be found in this book. It also contained a large amount of material that could be considered background for his other novels. This included a detailed description of the protagonist's treatment to avoid being banned to Coventry (a lawless land in the Heinlein mythos where unrepentant law-breakers are exiled).[citation needed]
 
Heinlein as depicted in Amazing Stories in 1953

It appears that Heinlein at least attempted to live in a manner consistent with these ideals, even in the 1930s, and had an open relationship in his marriage to his second wife, Leslyn. He was also a nudist;[3] nudism and body taboos are frequently discussed in his work. At the height of the Cold War, he built a bomb shelter under his house, like the one featured in Farnham's Freehold.[3]

After For Us, The Living, Heinlein began selling (to magazines) first short stories, then novels, set in a Future History, complete with a time line of significant political, cultural, and technological changes. A chart of the future history was published in the May 1941 issue of Astounding. Over time, Heinlein wrote many novels and short stories that deviated freely from the Future History on some points, while maintaining consistency in some other areas. The Future History was eventually overtaken by actual events. These discrepancies were explained, after a fashion, in his later World as Myth stories.

Heinlein's first novel published as a book, Rocket Ship Galileo, was initially rejected because going to the moon was considered too far-fetched, but he soon found a publisher, Scribner's, that began publishing a Heinlein juvenile once a year for the Christmas season.[46] Eight of these books were illustrated by Clifford Geary in a distinctive white-on-black scratchboard style.[47] Some representative novels of this type are Have Space Suit—Will Travel, Farmer in the Sky, and Starman Jones. Many of these were first published in serial form under other titles, e.g., Farmer in the Sky was published as Satellite Scout in the Boy Scout magazine Boys' Life. There has been speculation that Heinlein's intense obsession with his privacy was due at least in part to the apparent contradiction between his unconventional private life and his career as an author of books for children. However, For Us, The Living explicitly discusses the political importance Heinlein attached to privacy as a matter of principle thus negating this line of reasoning.[48]

The novels that Heinlein wrote for a young audience are commonly called "the Heinlein juveniles", and they feature a mixture of adolescent and adult themes. Many of the issues that he takes on in these books have to do with the kinds of problems that adolescents experience. His protagonists are usually very intelligent teenagers who have to make their way in the adult society they see around them. On the surface, they are simple tales of adventure, achievement, and dealing with stupid teachers and jealous peers. Heinlein was a vocal proponent of the notion that juvenile readers were far more sophisticated and able to handle more complex or difficult themes than most people realized. His juvenile stories often had a maturity to them that made them readable for adults. Red Planet, for example, portrays some very subversive themes, including a revolution in which young students are involved; his editor demanded substantial changes in this book's discussion of topics such as the use of weapons by children and the misidentified sex of the Martian character. Heinlein was always aware of the editorial limitations put in place by the editors of his novels and stories, and while he observed those restrictions on the surface, was often successful in introducing ideas not often seen in other authors' juvenile SF.

In 1957, James Blish wrote that one reason for Heinlein's success "has been the high grade of machinery which goes, today as always, into his story-telling. Heinlein seems to have known from the beginning, as if instinctively, technical lessons about fiction which other writers must learn the hard way (or often enough, never learn). He does not always operate the machinery to the best advantage, but he always seems to be aware of it."[49]

1959–1960

Heinlein decisively ended his juvenile novels with Starship Troopers (1959), a controversial work and his personal riposte to leftists calling for President Dwight D. Eisenhower to stop nuclear testing in 1958. "The "Patrick Henry" ad shocked 'em," he wrote many years later. "Starship Troopers outraged 'em."[50] Starship Troopers is a coming-of-age story about duty, citizenship, and the role of the military in society.[51] The book portrays a society in which suffrage is earned by demonstrated willingness to place society's interests before one's own, at least for a short time and often under onerous circumstances, in government service; in the case of the protagonist, this was military service.

Later, in Expanded Universe, Heinlein said that it was his intention in the novel that service could include positions outside strictly military functions such as teachers, police officers, and other government positions. This is presented in the novel as an outgrowth of the failure of unearned suffrage government and as a very successful arrangement. In addition, the franchise was only awarded after leaving the assigned service, thus those serving their terms—in the military, or any other service—were excluded from exercising any franchise. Career military were completely disenfranchised until retirement.

The name Starship Troopers was licensed for an unrelated, B movie script called Bug Hunt at Outpost Nine, which was then retitled to benefit from the book's credibility.[52] The resulting film, entitled Starship Troopers (1997), which was written by Ed Neumeier and directed by Paul Verhoeven, had little relationship to the book, beyond the inclusion of character names, the depiction of space marines, and the concept of suffrage earned by military service. Fans of Heinlein were critical of the movie, which they considered a betrayal of Heinlein's philosophy, presenting the society in which the story takes place as fascist.[53]

Likewise, the powered armor technology that is not only central to the book, but became a standard subgenre of science fiction thereafter, is completely absent in the movie, where the characters use World War II-technology weapons and wear light combat gear little more advanced than that.[54] In Verhoeven's movie of the same name, there is no battle armor. Verhoeven commented that he had tried to read the book after he had bought the rights to it, in order to add it to his existing movie. However he read only the first two chapters, finding it too boring to continue. He thought it was a bad book and asked Ed Neumeier to tell him the story because he couldn't read it.[55]

Middle period work, 1961–1973

Heinlein's novel Podkayne of Mars was serialized in If, with a cover by Virgil Finlay.

From about 1961 (Stranger in a Strange Land) to 1973 (Time Enough for Love), Heinlein explored some of his most important themes, such as individualism, libertarianism, and free expression of physical and emotional love. Three novels from this period, Stranger in a Strange Land, The Moon Is a Harsh Mistress, and Time Enough for Love, won the Libertarian Futurist Society's Prometheus Hall of Fame Award, designed to honor classic libertarian fiction.[56] Jeff Riggenbach described The Moon Is a Harsh Mistress as "unquestionably one of the three or four most influential libertarian novels of the last century".[57]

Heinlein did not publish Stranger in a Strange Land until some time after it was written, and the themes of free love and radical individualism are prominently featured in his long-unpublished first novel, For Us, The Living: A Comedy of Customs.

The Moon Is a Harsh Mistress tells of a war of independence waged by the Lunar penal colonies, with significant comments from a major character, Professor La Paz, regarding the threat posed by government to individual freedom.

Although Heinlein had previously written a few short stories in the fantasy genre, during this period he wrote his first fantasy novel, Glory Road, and in Stranger in a Strange Land and I Will Fear No Evil, he began to mix hard science with fantasy, mysticism, and satire of organized religion. Critics William H. Patterson, Jr., and Andrew Thornton believe that this is simply an expression of Heinlein's longstanding philosophical opposition to positivism.[58][verification needed] Heinlein stated that he was influenced by James Branch Cabell in taking this new literary direction. The penultimate novel of this period, I Will Fear No Evil, is according to critic James Gifford "almost universally regarded as a literary failure"[59] and he attributes its shortcomings to Heinlein's near-death from peritonitis.

Later work, 1980–1987

After a seven-year hiatus brought on by poor health, Heinlein produced five new novels in the period from 1980 (The Number of the Beast) to 1987 (To Sail Beyond the Sunset). These books have a thread of common characters and time and place. They most explicitly communicated Heinlein's philosophies and beliefs, and many long, didactic passages of dialog and exposition deal with government, sex, and religion. These novels are controversial among his readers and one critic, David Langford, has written about them very negatively.[60] Heinlein's four Hugo awards were all for books written before this period.

Most of the novels from this period are recognized by critics as forming an offshoot from the Future History series, and referred to by the term World as Myth.[61]

The tendency toward authorial self-reference begun in Stranger in a Strange Land and Time Enough for Love becomes even more evident in novels such as The Cat Who Walks Through Walls, whose first-person protagonist is a disabled military veteran who becomes a writer, and finds love with a female character.[62]

The 1982 novel Friday, a more conventional adventure story (borrowing a character and backstory from the earlier short story Gulf, also containing suggestions of connection to The Puppet Masters) continued a Heinlein theme of expecting what he saw as the continued disintegration of Earth's society, to the point where the title character is strongly encouraged to seek a new life off-planet. It concludes with a traditional Heinlein note, as in The Moon Is a Harsh Mistress or Time Enough for Love, that freedom is to be found on the frontiers.

The 1984 novel Job: A Comedy of Justice is a sharp satire of organized religion. Heinlein himself was agnostic.[63][64]

Posthumous publications

Several Heinlein works have been published since his death, including the aforementioned For Us, The Living as well as 1989's Grumbles from the Grave, a collection of letters between Heinlein and his editors and agent; 1992's Tramp Royale, a travelogue of a southern hemisphere tour the Heinleins took in the 1950s; Take Back Your Government, a how-to book about participatory democracy written in 1946; and a tribute volume called Requiem: Collected Works and Tributes to the Grand Master, containing some additional short works previously unpublished in book form. Off the Main Sequence, published in 2005, includes three short stories never before collected in any Heinlein book (Heinlein called them "stinkeroos").

Spider Robinson, a colleague, friend, and admirer of Heinlein,[65] wrote Variable Star, based on an outline and notes for a juvenile novel that Heinlein prepared in 1955. The novel was published as a collaboration, with Heinlein's name above Robinson's on the cover, in 2006.

A complete collection of Heinlein's published work has been published[66] by the Heinlein Prize Trust as the "Virginia Edition", after his wife. See the Complete Works section of Robert A. Heinlein bibliography for details.

Influences

The primary influence on Heinlein's writing style may have been Rudyard Kipling. Kipling is the first known modern example of "indirect exposition", a writing technique for which Heinlein later became famous.[67] In his famous text on "On the Writing of Speculative Fiction", Heinlein quotes Kipling:

There are nine-and-sixty ways Of constructing tribal lays And every single one of them is right

Stranger in a Strange Land actually originated as a modernized version of Kipling's The Jungle Book, his wife suggesting that the child be raised by martians instead of wolves. Likewise, Citizen of the Galaxy can be seen as a reboot of Kipling's novel Kim.[68]

Even philosophically, the Starship Troopers idea of needing to serve in the military in order to vote, can be found in Kipling's "The Army of a Dream":


Poul Anderson once said of Kipling's science fiction story "As Easy as A.B.C.", "a wonderful science fiction yarn, showing the same eye for detail that would later distinguish the work of Robert Heinlein".

Heinlein described himself as also being influenced by George Bernard Shaw, having read most of his plays.[69] Shaw is an example of an earlier author who used the competent man, a favorite Heinlein archetype.[70] He denied, though, any direct influence of Back to Methuselah on Methuselah's Children.

Views

Heinlein's books probe a range of ideas about a range of topics such as sex, race, politics, and the military. Many were seen as radical or as ahead of their time in their social criticism. His books have inspired considerable debate about the specifics, and the evolution, of Heinlein's own opinions, and have earned him both lavish praise and a degree of criticism. He has also been accused of contradicting himself on various philosophical questions.[71]

Brian Doherty cites William Patterson, saying that the best way to gain an understanding of Heinlein is as a "full-service iconoclast, the unique individual who decides that things do not have to be, and won't continue, as they are." He says this vision is "at the heart of Heinlein, science fiction, libertarianism, and America. Heinlein imagined how everything about the human world, from our sexual mores to our religion to our automobiles to our government to our plans for cultural survival, might be flawed, even fatally so."[72]

The critic Elizabeth Anne Hull, for her part, has praised Heinlein for his interest in exploring fundamental life questions, especially questions about "political power—our responsibilities to one another" and about "personal freedom, particularly sexual freedom."[73]

Politics

Heinlein's political positions shifted throughout his life. Heinlein's early political leanings were to the liberal.[74] In 1934, he worked actively for the Democratic campaign of Upton Sinclair for Governor of California. After Sinclair lost, Heinlein became an anti-Communist Democratic activist. He made an unsuccessful bid for a California State Assembly seat in 1938.[74] Heinlein's first novel, For Us, The Living (written 1939), consists largely of speeches advocating the Social Credit system, and the early story "Misfit" (1939) deals with an organization that seems to be Franklin D. Roosevelt's Civilian Conservation Corps translated into outer space.[citation needed]

Of this time in his life, Heinlein later said:
At the time I wrote Methuselah's Children I was still politically quite naive and still had hopes that various libertarian notions could be put over by political processes… It [now] seems to me that every time we manage to establish one freedom, they take another one away. Maybe two. And that seems to me characteristic of a society as it gets older, and more crowded, and higher taxes, and more laws.[69]
Heinlein's fiction of the 1940s and 1950s, however, began to espouse conservative views. After 1945, he came to believe that a strong world government was the only way to avoid mutual nuclear annihilation. His 1949 novel Space Cadet describes a future scenario where a military-controlled global government enforces world peace. Heinlein ceased considering himself a Democrat in 1954.[74] He was among those who in 1968 signed a pro-Vietnam War ad in Galaxy Science Fiction.[75]

Heinlein considered himself a libertarian; in a letter to Judith Merril in 1967 (never sent) he said, "As for libertarian, I've been one all my life, a radical one. You might use the term "philosophical anarchist" or "autarchist" about me, but "libertarian" is easier to define and fits well enough."[76]

Stranger in a Strange Land was embraced by the hippie counterculture, and libertarians have found inspiration in The Moon Is a Harsh Mistress. Both groups found resonance with his themes of personal freedom in both thought and action.[57]

Race

Heinlein grew up in the era of racial segregation in the United States and wrote some of his most influential fiction at the height of the civil rights movement. His early novels were very much ahead of their time both in their explicit rejection of racism and in their inclusion of protagonists of color—in the context of science fiction before the 1960s, the mere existence of characters of color was a remarkable novelty, with green occurring more often than brown.[77] For example, his 1948 novel Space Cadet explicitly uses aliens as a metaphor for minorities. In his novel Star Beast, the de facto foreign minister of the Terran government is an undersecretary, a Mr. Kiku, who is from Africa.[78] Heinlein explicitly states his skin is "ebony black", and that Kiku is in an arranged marriage that is happy.[79]

In a number of his stories, Heinlein challenges his readers' possible racial preconceptions by introducing a strong, sympathetic character, only to reveal much later that he or she is of African or other ancestry; in several cases, the covers of the books show characters as being light-skinned, when in fact the text states, or at least implies, that they are dark-skinned or of African ancestry.[82] Heinlein repeatedly denounced racism in his non-fiction works, including numerous examples in Expanded Universe.

Heinlein reveals in Starship Troopers that the novel's protagonist and narrator, Johnny Rico, the formerly disaffected scion of a wealthy family, is Filipino, actually named "Juan Rico" and speaks Tagalog in addition to English.

Race was a central theme in some of Heinlein's fiction. The most prominent and controversial example is Farnham's Freehold, which casts a white family into a future in which white people are the slaves of cannibalistic black rulers. In the 1941 novel Sixth Column (also known as The Day After Tomorrow), a white resistance movement in the United States defends itself against an invasion by an Asian fascist state (the "Pan-Asians") using a "super-science" technology that allows ray weapons to be tuned to specific races. The book is sprinkled with racist slurs against Asian people, and blacks and Hispanics are not mentioned at all. The idea for the story was pushed on Heinlein by editor John W. Campbell, and Heinlein wrote later that he had "had to re-slant it to remove racist aspects of the original story line" and that he did not "consider it to be an artistic success."[83][84] However, the novel prompted a heated debate in the scientific community regarding the plausibility of developing ethnic bioweapons.[85]

Individualism and self-determination

In keeping with his belief in individualism, his work for adults—and sometimes even his work for juveniles—often portrays both the oppressors and the oppressed with considerable ambiguity. Heinlein believed that individualism was incompatible with ignorance. He believed that an appropriate level of adult competence was achieved through a wide-ranging education, whether this occurred in a classroom or not. In his juvenile novels, more than once a character looks with disdain at a student's choice of classwork, saying, "Why didn't you study something useful?"[86] In Time Enough for Love, Lazarus Long gives a long list of capabilities that anyone should have, concluding, "Specialization is for insects." The ability of the individual to create himself is explored in stories such as I Will Fear No Evil, "'—All You Zombies—'", and "By His Bootstraps".

Heinlein claimed to have written Starship Stroopers in response to "calls for the unilateral ending of nuclear testing by the United States."[87] Heinlein suggests in the book that the Bugs are a good example of Communism being something that humans cannot successfully adhere to, since humans are strongly defined individuals, whereas the Bugs, being a collective, can all contribute to the whole without consideration of individual desire.[88]

Sexual issues

For Heinlein, personal liberation included sexual liberation, and free love was a major subject of his writing starting in 1939, with For Us, The Living. During his early period, Heinlein's writing for younger readers needed to take account of both editorial perceptions of sexuality in his novels, and potential perceptions among the buying public; as critic William H. Patterson has put it, his dilemma was "to sort out what was really objectionable from what was only excessive over-sensitivity to imaginary librarians".[89] By his middle period, sexual freedom and the elimination of sexual jealousy were a major theme of Stranger in a Strange Land (1961), in which the progressively minded but sexually conservative reporter, Ben Caxton, acts as a dramatic foil for the less parochial characters, Jubal Harshaw and Valentine Michael Smith (Mike). Another of the main characters, Jill, is homophobic.[90]

According to Gary Westfahl, "Heinlein is a problematic case for feminists; on the one hand, his works often feature strong female characters and vigorous statements that women are equal to or even superior to men; but these characters and statements often reflect hopelessly stereotypical attitudes about typical female attributes. It is disconcerting, for example, that in Expanded Universe Heinlein calls for a society where all lawyers and politicians are women, essentially on the grounds that they possess a mysterious feminine practicality that men cannot duplicate."[91]

In books written as early as 1956, Heinlein dealt with incest and the sexual nature of children. Many of his books including Time for the Stars, Glory Road, Time Enough for Love, and The Number of the Beast dealt explicitly or implicitly with incest, sexual feelings and relations between adults and children, or both.[92] The treatment of these themes include the romantic relationship and eventual marriage, once the girl becomes an adult via time-travel, of a 30-year-old engineer and an 11-year-old girl in The Door into Summer or the more overt intra-familial incest in To Sail Beyond the Sunset and Farnham's Freehold. Peers such as L. Sprague de Camp and Damon Knight have commented critically on Heinlein's portrayal of incest and pedophilia in a lighthearted and even approving manner.[92]

Philosophy

In To Sail Beyond the Sunset, Heinlein has the main character, Maureen, state that the purpose of metaphysics is to ask questions: Why are we here? Where are we going after we die? (and so on), and that you are not allowed to answer the questions. Asking the questions is the point of metaphysics, but answering them is not, because once you answer this kind of question, you cross the line into religion. Maureen does not state a reason for this; she simply remarks that such questions are "beautiful" but lack answers. Maureen's son/lover Lazarus Long makes a related remark in Time Enough for Love. In order for us to answer the "big questions" about the universe, Lazarus states at one point, it would be necessary to stand outside the universe.

During the 1930s and 1940s, Heinlein was deeply interested in Alfred Korzybski's General Semantics and attended a number of seminars on the subject. His views on epistemology seem to have flowed from that interest, and his fictional characters continue to express Korzybskian views to the very end of his writing career. Many of his stories, such as Gulf, If This Goes On—, and Stranger in a Strange Land, depend strongly on the premise, related to the well-known Sapir–Whorf hypothesis, that by using a correctly designed language, one can change or improve oneself mentally, or even realize untapped potential (as in the case of Joe Green in Gulf).[citation needed]

When Ayn Rand's novel The Fountainhead was published, Heinlein was very favorably impressed, as quoted in "Grumbles ..." and mentioned John Galt—the hero in Rand's Atlas Shrugged—as a heroic archetype in The Moon Is a Harsh Mistress. He was also strongly affected by the religious philosopher P. D. Ouspensky.[16] Freudianism and psychoanalysis were at the height of their influence during the peak of Heinlein's career, and stories such as Time for the Stars indulged in psychological theorizing.

However, he was skeptical about Freudianism, especially after a struggle with an editor who insisted on reading Freudian sexual symbolism into his juvenile novels. Heinlein was fascinated by the social credit movement in the 1930s. This is shown in Beyond This Horizon and in his 1938 novel For Us, The Living: A Comedy of Customs, which was finally published in 2003, long after his death.

Pay it forward

The term "pay it forward", though it was already in occasional use as a quotation, was popularized by Robert A. Heinlein in his book Between Planets, published in 1951:
The banker reached into the folds of his gown, pulled out a single credit note. "But eat first—a full belly steadies the judgment. Do me the honor of accepting this as our welcome to the newcomer."

His pride said no; his stomach said YES! Don took it and said, "Uh, thanks! That's awfully kind of you. I'll pay it back, first chance."

"Instead, pay it forward to some other brother who needs it."
Heinlein was a mentor to Ray Bradbury, giving him help and quite possibly passing on the concept, made famous by the publication of a letter from him to Heinlein thanking him. In Bradbury's novel Dandelion Wine, published in 1957, when the main character Douglas Spaulding is reflecting on his life being saved by Mr. Jonas, the Junkman:
How do I thank Mr. Jonas, he wondered, for what he's done? How do I thank him, how pay him back? No way, no way at all. You just can't pay. What then? What? Pass it on somehow, he thought, pass it on to someone else. Keep the chain moving. Look around, find someone, and pass it on. That was the only way ...
Bradbury has also advised that writers he has helped thank him by helping other writers.

Heinlein both preached and practiced this philosophy; now the Heinlein Society, a humanitarian organization founded in his name, does so, attributing the philosophy to its various efforts, including Heinlein for Heroes, the Heinlein Society Scholarship Program, and Heinlein Society blood drives.[93] Author Spider Robinson made repeated reference to the doctrine, attributing it to his spiritual mentor Heinlein.[94]

Influence and legacy

The Dean of Science Fiction Writers

Heinlein is usually identified, along with Isaac Asimov and Arthur C. Clarke, as one of the three masters of science fiction to arise in the so-called Golden Age of science fiction, associated with John W. Campbell and his magazine Astounding.[95] In the 1950s he was a leader in bringing science fiction out of the low-paying and less prestigious "pulp ghetto". Most of his works, including short stories, have been continuously in print in many languages since their initial appearance and are still available as new paperbacks decades after his death.


He was at the top of his form during, and himself helped to initiate, the trend toward social science fiction, which went along with a general maturing of the genre away from space opera to a more literary approach touching on such adult issues as politics and human sexuality. In reaction to this trend, hard science fiction began to be distinguished as a separate subgenre, but paradoxically Heinlein is also considered a seminal figure in hard science fiction, due to his extensive knowledge of engineering and the careful scientific research demonstrated in his stories. Heinlein himself stated—with obvious pride—that in the days before pocket calculators, he and his wife Virginia once worked for several days on a mathematical equation describing an Earth-Mars rocket orbit, which was then subsumed in a single sentence of the novel Space Cadet.

Writing style

Heinlein is often credited with bringing serious writing techniques to the genre of science fiction.
For example, when writing about fictional worlds, previous authors were often limited by the reader's existing knowledge of a typical "space opera" setting, leading to a relatively low creativity level: The same starships, death rays, and horrifying rubbery aliens becoming ubiquitous. This was necessary unless the author was willing to go into long expositions about the setting of the story, at a time when the word count was at a premium in SF.

But Heinlein utilized a technique called "indirect exposition", perhaps first introduced by Rudyard Kipling in his own science fiction venture, the Aerial Board of Control stories. Kipling had picked this up during his time in India.[96] This technique — mentioning details in a way that lets the reader infer more about the universe than is actually spelled out[97] became a trademark rhetorical technique of both Heinlein and generation of writers influenced by him. Heinlein was significantly influenced by Kipling beyond this, for example quoting him in On the Writing of Speculative Fiction.[98]

Likewise, Heinlein's name is often associated with the competent hero, a character archetype who, though he or she may have flaws and limitations, is a strong, accomplished person able to overcome any soluble problem set in their path. They tend to feel confident overall, have a broad life experience and set of skills, and not give up when the going gets tough. This style influenced not only the writing style of a generation of authors, but even their personal character. Harlan Ellison once said, "Very early in life when I read Robert Heinlein I got the thread that runs through his stories—the notion of the competent man...I've always held that as my ideal. I've tried to be a very competent man."[99]

While Heinlein used this style, in part, as a role model to the reader, it also has appeal to the self-image of general competence among many Science Fiction readers, who may see themselves as having technical ability, wide-ranging knowledge, an understanding of science, and great problem-solving skill, all of which feel unappreciated in school and work.

Heinlein's Rules of Writing

When fellow writers, or fans, wrote Heinlein asking for writing advice, he famously gave out his own list of rules for becoming a successful writer:
  1. You must write
  2. Finish what you start
  3. You must refrain from rewriting, except to editorial order
  4. You must put your story on the market
  5. You must keep it on the market until it has sold
About which he said:
The above five rules really have more to do with how to write speculative fiction than anything said above them. But they are amazingly hard to follow – which is why there are so few professional writers and so many aspirants, and which is why I am not afraid to give away the racket![100]
Heinlein later published an entire article, "On the Writing of Speculative Fiction", which included his rules, and from which the above quote is taken. When he says "anything said above them", he refers to his other guidelines. For example, he describes most stories as fitting into one of a handful of basic categories:
  • The Gadget Story
  • The Human Interest Story
    • Boy Meets Girl
    • The Little Tailor
    • The Man-Who-Learned-Better
In the article, Heinlein credits L. Ron Hubbard as having identified "The Man-Who-Learned-Better".

Influence among writers

Heinlein has had a pervasive influence on other science fiction writers. In a 1953 poll of leading science fiction authors, he was cited more frequently as an influence than any other modern writer.[101] Critic James Gifford writes that "Although many other writers have exceeded Heinlein's output, few can claim to match his broad and seminal influence. Scores of science fiction writers from the prewar Golden Age through the present day loudly and enthusiastically credit Heinlein for blazing the trails of their own careers, and shaping their styles and stories."[102]

Heinlein gave Larry Niven and Jerry Pournelle extensive advice on a draft manuscript of The Mote in God's Eye.[103] He contributed a cover blurb "Possibly the finest science fiction novel I have ever read." Writer David Gerrold, responsible for creating the tribbles in Star Trek, also credited Heinlein as the inspiration for his Dingilliad series of novels. Gregory Benford refers to his novel Jupiter Project as a Heinlein tribute. Similarly, Charles Stross says his Hugo Award-nominated novel Saturn's Children is "a space opera and late-period Robert A. Heinlein tribute",[104] referring to Heinlein's Friday.[105]

Words and phrases coined

Outside the science fiction community, several words and phrases coined or adopted by Heinlein have passed into common English usage:
  • Waldo, protagonist in the eponymous short story "Waldo", whose name came to mean mechanical or robot arms in the real world that are akin to the ones used by the character in the story.
  • TANSTAAFL, short for There Ain't No Such Thing as a Free Lunch, an existing term that refers to the fact that things supposedly given free always have some real cost, popularized in The Moon Is a Harsh Mistress.
  • Moonbat[106] used in United States politics as a pejorative political epithet referring to progressives or leftists, was originally the name of a space ship in his story Space Jockey.
  • Grok, a "Martian" word for understanding a thing so fully as to become one with it, from Stranger in a Strange Land.
  • Space marine, an existing term popularized by Heinlein in short stories, the concept then being made famous by Starship Troopers, though the term "space marine" is not used in that novel.
  • Speculative fiction, a term Heinlein used for the separation of serious, consistent Science Fiction writing, from the pop "sci fi" of the day, which generally took great artistic license with human knowledge, amounting to being more like space fantasy than science fiction.

Inspiring culture and technology

In 1962, Oberon Zell-Ravenheart (then still using his birth name, Tim Zell) founded the Church of All Worlds, a Neopagan religious organization modeled in many ways after the treatment of religion in the novel Stranger in a Strange Land. This spiritual path included several ideas from the book, including non-mainstream family structures, social libertarianism, water-sharing rituals, an acceptance of all religious paths by a single tradition, and the use of several terms such as "grok", "Thou art God", and "Never Thirst". Though Heinlein was neither a member nor a promoter of the Church, there was a frequent exchange of correspondence between Zell and Heinlein, and he was a paid subscriber to their magazine, Green Egg. This Church still exists as a 501(C)(3) religious organization incorporated in California, with membership worldwide, and it remains an active part of the neopagan community today.[107]

Heinlein was influential in making space exploration seem to the public more like a practical possibility. His stories in publications such as The Saturday Evening Post took a matter-of-fact approach to their outer-space setting, rather than the "gee whiz" tone that had previously been common. The documentary-like film Destination Moon advocated a Space Race with an unspecified foreign power almost a decade before such an idea became commonplace, and was promoted by an unprecedented publicity campaign in print publications. Many of the astronauts and others working in the U.S. space program grew up on a diet of the Heinlein juveniles,[original research?] best evidenced by the naming of a crater on Mars after him, and a tribute interspersed by the Apollo 15 astronauts into their radio conversations while on the moon.[108]

Heinlein was also a guest commentator for Walter Cronkite during Neil Armstrong and Buzz Aldrin's Apollo 11 moon landing. He remarked to Cronkite during the landing that, "This is the greatest event in human history, up to this time. This is—today is New Year's Day of the Year One."[109] Businessman and entrepreneur Elon Musk says that Heinlein's books have helped inspire his career.[110]

Heinlein Society

The Heinlein Society was founded by Virginia Heinlein on behalf of her husband, to "pay forward" the legacy of the writer to future generations of "Heinlein's Children." The foundation has programs to:
  • "Promote Heinlein blood drives."
  • "Provide educational materials to educators."
  • "Promote scholarly research and overall discussion of the works and ideas of Robert Anson Heinlein."
The Heinlein society also established the Robert A. Heinlein Award in 2003 "for outstanding published works in science fiction and technical writings to inspire the human exploration of space."[111][112]

In popular culture

Robert Heinlein was a kind of early mentor of mine. I started reading his books when I was eight years old. ... I guess I was really getting more of my education out of science-fiction than out of public school. I was reading Ray Bradbury and Isaac Asimov and learning a great deal about the patois of the language itself and how these words were being used to create emotions. I was learning this from writers without even knowing it. ... The Moon Is a Harsh Mistress was one of the best titles I've ever heard in my life. I really am guilty of appropriating something from another writer. In this case I had contact with Robert A. Heinlein's attorneys. I said, "I want to write a song with the title, 'The Moon Is a Harsh Mistress'. Can you ask Mr. Heinlein if it's okay with him?" They called me back and he said he had no objection to it.[115]
  • In the 1985 science fiction film Explorers, one character is a genetically engineered talking rat named Heinlein.[116]
  • In the 2001 novel The Counterfeit Heinlein by Laurence M. Janifer, Heinlein appears indirectly as the purported author of an ancient manuscript, supposedly one of his unpublished stories, "The Stone Pillow".[117][third-party source needed]

Honors

Orbital path of Robert Heinlein's eponymous asteroid

In his lifetime, Heinlein received four Hugo Awards, for Double Star, Starship Troopers, Stranger in a Strange Land, and The Moon Is a Harsh Mistress, and was nominated for four Nebula Awards, for Stranger in a Strange Land, Friday, Time Enough for Love, and Job: A Comedy of Justice.[118] He was also given five posthumous Hugos, for Farmer in the Sky, "Destination Moon", "If This Goes On", "The Roads Must Roll", and The Man Who Sold the Moon.

The Science Fiction Writers of America named Heinlein its first Grand Master in 1974, presented 1975. Officers and past presidents of the Association select a living writer for lifetime achievement (now annually and including fantasy literature).[11][12]

Main-belt asteroid 6312 Robheinlein (1990 RH4), discovered on September 14, 1990 by H. E. Holt, at Palomar was named after him.[119]

There is no lunar feature named explicitly for Heinlein, but in 1994 the International Astronomical Union named Heinlein crater on Mars in his honor.[120][121]

The Science Fiction and Fantasy Hall of Fame inducted Heinlein in 1998, its third class of two deceased and two living writers and editors.[122]

In 2001 the United States Naval Academy created the Robert A. Heinlein Chair In Aerospace Engineering.[123]

In 2016, after an intensive online campaign to win a vote for the opening, Heinlein was inducted into the Hall of Famous Missourians. His bronze bust, created by Kansas City sculptor E. Spencer Schubert, is on permanent display in the Missouri State Capitol in Jefferson City.[124]

The Libertarian Futurist Society has honored five of Heinlein's novels and two short stories with their Hall of Fame award.[125] The first two were given during his lifetime for The Moon Is a Harsh Mistress and Stranger in a Strange Land. Five more were awarded posthumously for Red Planet, Methuselah's Children, Time Enough for Love, and the short stories Requiem and Coventry.

Cosmological argument

From Wikipedia, the free encyclopedia

In natural theology and philosophy, a cosmological argument is an argument in which the existence of a unique being, generally seen as some kind of god, is deduced or inferred from facts or alleged facts concerning causation, change, motion, contingency, or finitude in respect of the universe as a whole or processes within it. It is traditionally known as an argument from universal causation, an argument from first cause, or the causal argument, and is more precisely a cosmogonical argument (about the origin). Whichever term is employed, there are three basic variants of the argument, each with subtle yet important distinctions: the arguments from in causa (causality), in esse (essentiality), and in fieri (becoming).

The basic premises of all of these are the concept of causality and the Universe having a beginning. The conclusion of these arguments is first cause, subsequently deemed to be God. The history of this argument goes back to Aristotle or earlier, was developed in Neoplatonism and early Christianity and later in medieval Islamic theology during the 9th to 12th centuries, and re-introduced to medieval Christian theology in the 13th century by Thomas Aquinas. The cosmological argument is closely related to the principle of sufficient reason as addressed by Gottfried Leibniz and Samuel Clarke, itself a modern exposition of the claim that "nothing comes from nothing" attributed to Parmenides.

Contemporary defenders of cosmological arguments include William Lane Craig,[3] Robert Koons,[4] Alexander Pruss,[5] and William L. Rowe.[6]

History

Plato and Aristotle, depicted here in Raphael's The School of Athens, both developed first cause arguments.

Plato (c. 427–347 BC) and Aristotle (c. 384–322 BC) both posited first cause arguments, though each had certain notable caveats.[7] In The Laws (Book X), Plato posited that all movement in the world and the Cosmos was "imparted motion". This required a "self-originated motion" to set it in motion and to maintain it. In Timaeus, Plato posited a "demiurge" of supreme wisdom and intelligence as the creator of the Cosmos.

Aristotle argued against the idea of a first cause, often confused with the idea of a "prime mover" or "unmoved mover" (πρῶτον κινοῦν ἀκίνητον or primus motor) in his Physics and Metaphysics.[8] Aristotle argued in favor of the idea of several unmoved movers, one powering each celestial sphere, which he believed lived beyond the sphere of the fixed stars, and explained why motion in the universe (which he believed was eternal) had continued for an infinite period of time. Aristotle argued the atomist's assertion of a non-eternal universe would require an uncaused cause — in his terminology, an efficient first cause — an idea he considered a non-sensical flaw in the reasoning of the atomists.

Like Plato, Aristotle believed in an eternal cosmos with no beginning and no end (which in turn follows Parmenides' famous statement that "nothing comes from nothing"). In what he called "first philosophy" or metaphysics, Aristotle did intend a theological correspondence between the prime mover and deity (presumably Zeus); functionally, however, he provided an explanation for the apparent motion of the "fixed stars" (now understood as the daily rotation of the Earth). According to his theses, immaterial unmoved movers are eternal unchangeable beings that constantly think about thinking, but being immaterial, they're incapable of interacting with the cosmos and have no knowledge of what transpires therein. From an "aspiration or desire",[9] the celestial spheres, imitate that purely intellectual activity as best they can, by uniform circular motion. The unmoved movers inspiring the planetary spheres are no different in kind from the prime mover, they merely suffer a dependency of relation to the prime mover. Correspondingly, the motions of the planets are subordinate to the motion inspired by the prime mover in the sphere of fixed stars. Aristotle's natural theology admitted no creation or capriciousness from the immortal pantheon, but maintained a defense against dangerous charges of impiety.

Plotinus, a third-century Platonist, taught that the One transcendent absolute caused the universe to exist simply as a consequence of its existence (creatio ex deo). His disciple Proclus stated "The One is God".[citation needed]

Centuries later, the Islamic philosopher Avicenna (c. 980–1037) inquired into the question of being, in which he distinguished between essence (Mahiat) and existence (Wujud). He argued that the fact of existence could not be inferred from or accounted for by the essence of existing things, and that form and matter by themselves could not originate and interact with the movement of the Universe or the progressive actualization of existing things. Thus, he reasoned that existence must be due to an agent cause that necessitates, imparts, gives, or adds existence to an essence. To do so, the cause must coexist with its effect and be an existing thing.[10]

Steven Duncan writes that "it was first formulated by a Greek-speaking Syriac Christian neo-Platonist, John Philoponus," who claims to find a contradiction between the Greek pagan insistence on the eternity of the world and the Aristotelian rejection of the existence of any actual infinite." Referring to the argument as the "'Kalam' cosmological argument", Duncan asserts that it "received its fullest articulation at the hands of [medieval] Muslim and Jewish exponents of Kalam ("the use of reason by believers to justify the basic metaphysical presuppositions of the faith)."[11]

Thomas Aquinas (c. 1225–1274) adapted and enhanced the argument he found in his reading of Aristotle and Avicenna to form one of the most influential versions of the cosmological argument. His conception of First Cause was the idea that the Universe must be caused by something that is itself uncaused, which he claimed is that which we call God: "The second way is from the nature of the efficient cause. In the world of sense we find there is an order of efficient causes. There is no case known (neither is it, indeed, possible) in which a thing is found to be the efficient cause of itself; for so it would be prior to itself, which is impossible. Now in efficient causes it is not possible to go on to infinity, because in all efficient causes following in order, the first is the cause of the intermediate cause, and the intermediate is the cause of the ultimate cause, whether the intermediate cause be several, or only one. Now to take away the cause is to take away the effect. Therefore, if there be no first cause among efficient causes, there will be no ultimate, nor any intermediate cause. But if in efficient causes it is possible to go on to infinity, there will be no first efficient cause, neither will there be an ultimate effect, nor any intermediate efficient causes; all of which is plainly false. Therefore it is necessary to admit a first efficient cause, to which everyone gives the name of God."[14][dubious ] Importantly, Aquinas' Five Ways, given the second question of his Summa Theologica, are not the entirety of Aquinas' demonstration that the Christian God exists. The Five Ways form only the beginning of Aquinas' Treatise on the Divine Nature.

Versions of the argument

Argument from contingency

In the scholastic era, Aquinas formulated the "argument from contingency", following Aristotle in claiming that there must be something to explain why the Universe exists. Since the Universe could, under different circumstances, conceivably not exist (contingency), its existence must have a cause – not merely another contingent thing, but something that exists by necessity (something that must exist in order for anything else to exist).[15] In other words, even if the Universe has always existed, it still owes its existence to an Uncaused Cause,[16] Aquinas further said: "...and this we understand to be God."[17]

Aquinas's argument from contingency allows for the possibility of a Universe that has no beginning in time. It is a form of argument from universal causation. Aquinas observed that, in nature, there were things with contingent existences. Since it is possible for such things not to exist, there must be some time at which these things did not in fact exist. Thus, according to Aquinas, there must have been a time when nothing existed. If this is so, there would exist nothing that could bring anything into existence. Contingent beings, therefore, are insufficient to account for the existence of contingent beings: there must exist a necessary being whose non-existence is an impossibility, and from which the existence of all contingent beings is derived.

The German philosopher Gottfried Leibniz made a similar argument with his principle of sufficient reason in 1714. "There can be found no fact that is true or existent, or any true proposition," he wrote, "without there being a sufficient reason for its being so and not otherwise, although we cannot know these reasons in most cases." He formulated the cosmological argument succinctly: "Why is there something rather than nothing? The sufficient reason [...] is found in a substance which [...] is a necessary being bearing the reason for its existence within itself."[18]

In esse and in fieri

The difference between the arguments from causation in fieri and in esse is a fairly important one. In fieri is generally translated as "becoming", while in esse is generally translated as "in essence". In fieri, the process of becoming, is similar to building a house. Once it is built, the builder walks away, and it stands on its own accord; compare the watchmaker analogy. (It may require occasional maintenance, but that is beyond the scope of the first cause argument.)

In esse (essence) is more akin to the light from a candle or the liquid in a vessel. George Hayward Joyce, SJ, explained that "...where the light of the candle is dependent on the candle's continued existence, not only does a candle produce light in a room in the first instance, but its continued presence is necessary if the illumination is to continue. If it is removed, the light ceases. Again, a liquid receives its shape from the vessel in which it is contained; but were the pressure of the containing sides withdrawn, it would not retain its form for an instant." This form of the argument is far more difficult to separate from a purely first cause argument than is the example of the house's maintenance above, because here the First Cause is insufficient without the candle's or vessel's continued existence.[19]

Thus, Leibniz' argument is in fieri, while Aquinas' argument is both in fieri and in esse. This distinction is an excellent example of the difference between a deistic view (Leibniz) and a theistic view (Aquinas). As a general trend, the modern slants on the cosmological argument, including the Kalam argument, tend to lean very strongly towards an in fieri argument.[citation needed]

Kalām cosmological argument

William Lane Craig gives this argument in the following general form:[20]
  1. Whatever begins to exist has a cause.
  2. The Universe began to exist.
  3. Therefore, the Universe had a cause.
Craig explains, by nature of the event (the Universe coming into existence), attributes unique to (the concept of) God must also be attributed to the cause of this event, including but not limited to: omnipotence, Creator, being eternal and absolute self-sufficiency. Since these attributes are unique to God, anything with these attributes must be God. Something does have these attributes: the cause; hence, the cause is God, the cause exists; hence, God exists.

Craig defends the second premise, that the Universe had a beginning starting with Al-Ghazali's proof that an actual infinite is impossible. However, If the universe never had a beginning then there indeed would be an actual infinite, an infinite amount of cause and effect events. Hence, the Universe had a beginning.

Objections and counterarguments

What caused the First Cause?

One objection to the argument is that it leaves open the question of why the First Cause is unique in that it does not require any causes. Proponents argue that the First Cause is exempt from having a cause, while opponents argue that this is special pleading or otherwise untrue.[1] Critics often press that arguing for the First Cause's exemption raises the question of why the First Cause is indeed exempt,[21] whereas defenders maintain that this question has been answered by the various arguments, emphasizing that none of its major forms rests on the premise that everything has a cause.[22]

Secondly, it is argued that the premise of causality has been arrived at via a posteriori (inductive) reasoning, which is dependent on experience. David Hume highlighted this problem of induction and argued that causal relations were not true a priori. However, as to whether inductive or deductive reasoning is more valuable still remains a matter of debate, with the general conclusion being that neither is prominent.[23] Opponents of the argument tend to argue that it is unwise to draw conclusions from an extrapolation of causality beyond experience.[1]

Not evidence for a theist God

The basic cosmological argument merely establishes that a First Cause exists, not that it has the attributes of a theistic god, such as omniscience, omnipotence, and omnibenevolence.[24] This is why the argument is often expanded to show that at least some of these attributes are necessarily true, for instance in the modern Kalam argument given above.[1]

Existence of causal loops

A causal loop is a form of predestination paradox arising where traveling backwards in time is deemed a possibility. A sufficiently powerful entity in such a world would have the capacity to travel backwards in time to a point before its own existence, and to then create itself, thereby initiating everything which follows from it.

The usual reason which is given to refute the possibility of a causal loop is it requires that the loop as a whole be its own cause. Richard Hanley argues that causal loops are not logically, physically, or epistemically impossible: "[In timed systems,] the only possibly objectionable feature that all causal loops share is that coincidence is required to explain them."[25]

Existence of infinite causal chains

David Hume and later Paul Edwards have invoked a similar principle in their criticisms of the cosmological argument. Rowe has called the principle the Hume-Edwards principle:[26]
If the existence of every member of a set is explained, the existence of that set is thereby explained.
Nevertheless, David White argues that the notion of an infinite causal regress providing a proper explanation is fallacious.[27] Furthermore, Demea states that even if the succession of causes is infinite, the whole chain still requires a cause.[28] To explain this, suppose there exists a causal chain of infinite contingent beings. If one asks the question, "Why are there any contingent beings at all?", it won’t help to be told that "There are contingent beings because other contingent beings caused them." That answer would just presuppose additional contingent beings. An adequate explanation of why some contingent beings exist would invoke a different sort of being, a necessary being that is not contingent.[29] A response might suppose each individual is contingent but the infinite chain as a whole is not; or the whole infinite causal chain to be its own cause.

Severinsen argues that there is an "infinite" and complex causal structure.[30] White tried to introduce an argument “without appeal to the principle of sufficient reason and without denying the possibility of an infinite causal regress”.[31]

Big Bang cosmology

Some cosmologists and physicists argue that a challenge to the cosmological argument is the nature of time: "One finds that time just disappears from the Wheeler–DeWitt equation"[32] (Carlo Rovelli). The Big Bang theory states that it is the point in which all dimensions came into existence, the start of both space and time.[33] Then, the question "What was there before the Universe?" makes no sense; the concept of "before" becomes meaningless when considering a situation without time.[33] This has been put forward by J. Richard Gott III, James E. Gunn, David N. Schramm, and Beatrice Tinsley, who said that asking what occurred before the Big Bang is like asking what is north of the North Pole.[33] However, some cosmologists and physicists do attempt to investigate causes for the Big Bang, using such scenarios as the collision of membranes.[34]

Philosopher Edward Feser states that classical philosophers' arguments for the existence of God do not care about the Big Bang or whether the universe had a beginning. The question is not about what got things started or how long they have been going, but rather what keeps them going.[35]

Alternatively, the above objections can be dispelled by separating the Cosmological Argument from the A-Theory of Time[36] and subsequently discussing God as a timeless (rather than "before" in a linear sense) cause of the Big Bang. There is also a Big Bang Argument, which is a variation of the Cosmological Argument using the Big Bang Theory to validate the premise that the Universe had a beginning.[37]

Reprogramming your Biochemistry for Immortality: An Interview with Ray Kurzweil by David Jay Brown

March 8, 2006 by Ray Kurzweil
Original link:  http://www.kurzweilai.net/reprogramming-your-biochemistry-for-immortality-an-interview-with-ray-kurzweil-by-david-jay-brown
 
Scientists are now talking about people staying young and not aging. Ray Kurzweil is taking it a step further: “In addition to radical life extension, we’ll also have radical life expansion. The nanobots will be able to go inside the brain and extend our mental functioning by interacting with our biological neurons.”

Interview conducted by David Jay Brown on February 8, 2006. This interview will be published in Brown’s upcoming book Mavericks of Medicine(2006). Published on KurzweilAI.net March 8, 2006.

Ray Kurzweil is a computer scientist, software developer, inventor, entrepreneur, philosopher, and a leading proponent of radical life extension. He is the coauthor (with Terry Grossman, M.D.) of Fantastic Voyage: Live Long Enough to Live Forever, which is one of the most intriguing and exciting books on life extension around. Kurzweil and Grossman’s approach to health and longevity combines the most current and practical medical knowledge with a soundly-based, yet awe-inspiring visionary perspective of what’s to come.

Kurzweil’s philosophy is built upon the premise that we now have the knowledge to identify and correct the problems caused by most unhealthy genetic predispositions. By taking advantage of the opportunities afforded us by the genomic testing, nutritional supplements, and lifestyle adjustments, we can live long enough to reap the benefits of advanced biotechnology and nanotechnology, which will ultimately allow us to conquer aging and live forever. At the heart of Kurzweil’s optimistic philosophy is the notion that human knowledge is growing exponentially, not linearly, and this fact is rarely taken into account when people try to predict the rate of technological advance in the future. Kurzweil predicts that at the current rate of knowledge expansion we’ll have the technology to completely conquer aging within the next couple of decades.

I spoke with Ray on February 8, 2006. Ray speaks very precisely, and he chooses his words carefully. He presents his ideas with a lot of confidence, and I found his optimism to be contagious. We spoke about the importance of genomic testing, some of the common misleading ideas that people have about health, and how biotechnology and nanotechnology will radically affect our longevity in the future.

David: What inspired your interest in life extension?

Ray: Probably the first incident that got me on this path was my father’s illness. This began when I was fifteen, and he died seven years later of heart disease when I was twenty-two. He was fifty-eight. I’ll actually be fifty-eight this Sunday. I sensed a dark cloud over my future, feeling like there was a good chance that I had inherited his disposition to heart disease. When I was thirty-five, I was diagnosed with Type 2 diabetes, and the conventional medical approach made it worse.

So I really approached the situation as an inventor, as a problem to be solved. I immersed myself in the scientific literature, and came up with an approach that allowed me to overcome my diabetes. My levels became totally normal, and in the course of this process I discovered that I did indeed have a disposition, for example, to high cholesterol. My cholesterol was 280 and I also got that down to around 130. That was twenty-two years ago.

I wrote a bestselling health book, which came out in 1993 about that experience, and the program that I’d come up with. That’s what really got me on this path of realizing that—if you’re aggressive enough about reprogramming your biochemistry—you can find the ideas that can help you to overcome your genetic dispositions, because they’re out there. They exist.

About seven years ago, after my book The Age of Spiritual Machines came out in 1999, I was at a Foresight Institute conference. I met Terry Grossman there, and we struck up a conversation about this subject—nutrition and health. I went to see him at his longevity clinic in Denver for an evaluation, and we built a friendship. We started exchanging emails about health issues—and that was 10,000 emails ago. We wrote this book Fantastic Voyage together, which really continues my quest. And he also has his own story about how he developed similar ideas, and how we collaborated.

There’s really a lot of knowledge available right now, although, previously, it has not been packaged in the same way that we did it. We have the knowledge to reprogram our biochemistry to overcome disease and aging processes. We can dramatically slow down aging, and we can really overcome conditions such as atherosclerosis, that leads to almost all heart attacks and strokes, diabetes, and we can substantially reduce the risk of cancer with today’s knowledge. And, as you saw from the book, all of that is just what we call ‘Bridge One.’ We’re not saying that taking lots of supplements and changing your diet is going enable you to live five hundred years. But it will enable Baby Boomers—like Dr. Grossman and myself, and our contemporaries—to be in good shape ten or fifteen years from now, when we really will have the full flowering of the biotechnology revolution, which is ‘Bridge Two.’

Now, this gets into my whole theory of information technology. Biology has become an information technology. It didn’t used to be. Biology used to be hit or miss. We’d just find something that happened to work. We didn’t really understand why it worked, and, invariably, these tools, these drugs, had side-effects. They were very crude tools. Drug development was called drug discovery, because we really weren’t able to reprogram biology. That is now changing. Our understanding of biology, and the ability to manipulate it, is becoming an information technology. We’re understanding the information processes that underlie disease processes, like atherosclerosis, and we’re gaining the tools to reprogram those processes.

Drug development is now entering an era of rational drug design, rather than drug discovery. The important point to realize is that the progress is exponential, not linear. Invariably people—including sophisticated people—do not take that into consideration, and it makes all the difference in the world. The mainstream skeptics declared the fifteen year genome project a failure after seven and half years because only one percent of the project was done. The skeptics said, I told you this wasn’t going to work—here you are halfway through the project and you’ve hardly done anything. But the progress was exponential, doubling every year, and the last seven doublings go from one percent to a hundred percent. So the project was done on time. It took fifteen years to sequence HIV. We sequenced the SARS virus in thirty-one days.

There are many other examples of that. We’ve gone from ten dollars to sequence one base pair in 1990 to a penny today. So in ten or fifteen years from now it’s going to be a very different landscape. We really will have very powerful interventions, in the form of rationally-designed drugs that can precisely reprogram our biochemistry. We can do it to a large extent today with supplements and nutrition, but it takes a more extensive effort. We’ll have much more powerful tools fifteen years from, so I want it to be in good shape at that time.

Most of my Baby Boomer contemporaries are completely oblivious of this perspective. They just assume that aging is part of the cycle of human life, and at 65 or 70 you start slowing down. Then at eighty you’re dead. So they’re getting ready to retire, and are really unaware of this perspective that things are going to be very different ten or fifteen years from now. This insight really should motivate them to be aggressive about using today’s knowledge. Of course all of this will lead to ‘Bridge Three’ about twenty years from now—the nanotechnology revolution—where we can go beyond the limitations of biology. We’ll have programmable nanobots that can keep us healthy from inside, and truly provide truly radical life extension.

So that’s the genesis. My interest in life extension stems primarily from my having been diagnosed with Type 2 diabetes. I really consider the diabetes to be a blessing because it prodded me to overcome it, and, in so doing, I realized that I didn’t just have an approach for diabetes, but a general attitude and approach to overcome any health problem, that we really can find the ideas and apply them to overcome the genetic dispositions that we have. There’s a common wisdom that your genes are eighty percent of your health and longevity and lifestyle is only twenty percent. Well, that’s true if you follow the generally, watered-down guidelines that our health institutions put out. But if you follow the optimal guidelines that we talk about, you can really overcome almost any genetic disposition. We do have the knowledge to do that.

David: What do you think are some of the common misleading ideas that people have about health and longevity?

Ray: One thing that I just eluded to is the compromised recommendations from our health authorities. I just had a lengthy debate with the Joslin Diabetes Center, which is considered the world’s leading diabetes treatment and research center. I’m on the board, and they’ve just come out with new nutritional guidelines, which are highly compromised. They’re far from ideal, and they acknowledge that. They say, well, we have enough trouble getting people to follow these guidelines, let alone the stricter guidelines that you recommend. And my reply is, you have trouble getting people to follow your guidelines because they don’t work. If people followed your guidelines very precisely they’d still have Type 2 diabetes. They’d still have to take harsh drugs or insulin.

If they follow my guidelines the situation is quite different. I’ve counseled many people about Type 2 diabetes, and Dr. Grossman has treated many people with it, and they come back and they have completely normal levels. Their symptoms are gone, and they don’t have to take insulin or harsh drugs. They feel liberated, and that’s extremely motivating. In many ways it’s easier to make a stricter change. To dramatically reduce your high Glycemic index carbs is actually easier than moderately reducing them, because if you moderately reduce them you don’t get rid of the cravings for carbs. Carbs are addictive, and it’s just like trying to cut down a little bit on cigarettes. It’s actually easier to cut cigarettes out completely, and it’s also easier to largely cut out high Glycemic index starches and sugars, because the cravings go away and it’s much easier to follow. But, most importantly, it works along with a few supplements and exercise to overcome most cases of Type 2 Diabetes.

However, this doesn’t seem to be the attitude our health authorities. The nutritional recommendations are consistently compromised. There’s almost no understanding of the role of nutritional supplements, which can be very powerful. I take two hundred and fifty supplements a day, and I monitor my body regularly. I’m not just flying without instrumentation. Being an engineer, I like data and I monitor fifty or sixty different blood levels every few months, and I’m constantly fine-tuning my program. All of my blood levels are ideal. My Homocysteine level many years ago was eleven, but now it’s five. My C-reactive protein is 0.1. My cholesterol is 130. My LDL is about 60, and my HDL—which was 28—is now close to sixty. And so on and so forth.

I’ve also taken biological aging tests, which measure things like tactile sensitivity, reaction time, memory, and decision-making speed. There are forty different tests, and you compare your score to medians for different populations at different ages. When I was forty I came out at about thirty-eight. Now I’m fifty-seven—at least for a few more days—and I come out at forty. So, according to these tests, I’ve only aged two years in the last seventeen years. Now you can dispute the absolute validity of these biological aging tests. It’s just a number, but it’s just evidence that this program is working.

David: Why do you think that genomic testing is important?

Ray: Our program is very much not a one size fits all. It’s not a one-trick pony. We’re not saying that if you lower your carbs, lower your fat, or eat a grapefruit a day then everything will be fine. In fact, our publisher initially had a problem with this, but they actually got behind it enthusiastically, because it fundamentally differs, as you know, from most health books that really do have just one idea. We earnestly try to provide a comprehensive understanding of your biology and your body, which does have some complexity to it. Then we let people apply these principles to their own lives.

It is important to emphasize the issues that are concerns for yourself. We use an analogy of stepping backwards towards a cliff. It’s much easier to change direction before you fall off the cliff. But, generally, medicine doesn’t get involved until the eruption of clinical disease. Someone has a heart attack, or they develop clinical cancer, and that’s very often akin to falling off a cliff. One third of first heart attacks are fatal, and another third cause permanent damage to the heart muscle.

It’s much easier to catch these conditions beforehand. You don’t just catch heart disease or cancer walking down the street one day. These are many years or decades in the making, and you can see where you are in the progression of these diseases. So it’s very important to know thyself, to access your own situation. Genetic testing is important because you can see what dispositions you have. If you have certain genes that dispose you to heart disease, or conversely cancer, or diabetes, then you would give a higher priority to managing those issues, and do more tests to see where you are in the progression of those conditions. Let’s say you do a test and it says you have a genetic disposition to Type 2 diabetes. So you should do a glucose-tolerance test. In fact, we describe a more sophisticated form of that in the book, where you measure insulin as well, and can see if you have early stages of insulin resistance.

Perhaps you have metabolic syndrome, which a very substantial fraction of the population has. If you have these early harbingers of insulin resistance, that could lead to Type 2 diabetes, so obviously the priority of that issue will be greatly heightened. If you don’t have that vulnerability then you don’t have to be as concerned about insulin resistance, and so on. But if you do have insulin resistance, or you have a high level of atherosclerosis, then it really behooves you to take important steps to get these dangerous conditions under control—which you can do. So genomic testing is not something you do by itself. It’s part of a comprehensive assessment program to know your own body—not only what you’re predisposed to, but what your body has already developed in terms of early versions of these degenerative conditions.

David: What are some of the most important nutritional supplements that you would recommend to help prevent cancer and cardiovascular disease?

Ray: We spell all that out in the book. Coenzyme Q10 is important. It never ceases to amaze me that physicians do not tell their patients to take coenzyme Q10 when they prescribe Statin drugs. This is because it’s well known that Statin drugs deplete the body of coenzyme Q10, and a lot of the side-effects such as muscle weakness that people suffer from Statin drugs are because of this depletion of coenzyme Q10. In any event, that’s an important supplement. It is involved in energy generation within the mitochondria of each cell. Disruption to the mitochondria is an important aging process and this supplement will help slow that down. Coenzyme Q10 has a number of protective effect including lowering blood pressure, helping to control free-radical damage, and protecting the heart.

A lot of research recently shows the Curcumin, which is derived from the spice turmeric, has important anti-inflammatory properties and can protect against cancer, heart disease, and even Alzheimer’s disease.

Alpha-Lipoic acid is an important antioxidant which is both water and fat-soluble. It can neutralize harmful free radicals, improve insulin sensitivity, and slow down the process of advanced Glycation end products (AGEs), which is another key aging process.

Each of the vitamins is important and plays a key role. Vitamin C is generally protective as a premier antioxidant. It appears to have particular effectiveness in preventing the early stages of atherosclerosis, namely the oxidizing of LDL cholesterol.

In terms of vitamin E, there’s been a lot of negative publicity about that, but if you look carefully at that research you’ll see that all of those studies were done with alpha-Tocopherol, and vitamin E is really a blend of eight different substances—four tocopherols and four Tocotrienols. Alpha-Tocopherol actually depletes levels of gamma-Tocopherol, and gamma-Tocopherol is the form of vitamin E that’s found naturally in food, and is a particularly important one. So we recommend that people take a blend of the fractions of vitamin E, and that they get enough gamma-Tocopherol.

There are a number of others that are important to take in general. If you have high cholesterol, Policosanol is one supplement that is quite effective, and has an independent action from the Statin drugs. Statin drugs actually are quite good. They appear to be anti-inflammatory, so they not only lower cholesterol but attack the inflammatory processes, which underlie many diseases, including atherosclerosis. But as I mentioned it’s important to take coenzyme Q10 if you’re taking Statin drugs.

There are others. Grape seed proanthocyanidin extract has been found to be another effective antioxident. Resveratrol is another. We have an extensive discussion of the most important supplements in the book.

David: What sort of suggestions would you make to someone who is looking to improve their memory or cognitive performance?

Ray: Vinpocetine, derived from the periwinkle plant, seems to have the best research. It improves cerebral blood flow, increases brain cell TP (energy) production, and enables better utilization of glucose and oxygen in the brain.

Other supplements that appear to be important for brain health include Phosphatidylserine, Acetyl-L-Carnitine, Pregneneolone, and EPA/DHA. The research appears a bit mixed on Ginkgo Biloba, but we’re not ready to give up on it.

We provide a discussion in the book of a number of smart nutrients that appear to improve brain health. There are also a number of smart drugs being developed, some of which are already in the testing pipeline, that appear to be quite promising.

David: What do you think are the primary causes of aging?

Ray: Aging is not one thing. There’s a number of different processes involved and you can adopt programs that slow down each of these. For example, one process involves the depletion of phosphatidylcholine in the cell membrane. In young people the cell membrane is about sixty or seventy percent phosphatidylcholine, and the cell membrane functions very well then—letting nutrients in and letting toxins out.

The body makes phosphatidylcholine, but very slowly, so over the decades the phosphatidylcholine in the cell membrane depletes, and the cell membrane gets filled in with inert substances, like hard fats and cholesterol, that basically don’t work. This is one reasons that cells become brittle with age. The skin in an elderly person begins to not be supple. The organs stop functioning efficiently. So it’s actually a very important aging process, and you can reverse that by supplementing with phosphatidylcholine. If you really want to do it effectively you can take phosphatidylcholine intravenously, as I do. Every week I have a I.V. with phosphatidylcholine. I also take it every day orally. So that’s one aging process we can stop today.

Another important aging process involves oxidation through positively-charged oxygen free radicals, which will steal electrons from cells, disrupting normal enzymatic processes. There are a number of different types of antioxidants that you can take to slow down that process, including vitamin C. You could take vitamin C intravenously to boost that process.

Advanced Glycation end-products, or AGEs, are involved in another aging process. This is where proteins develop cross-links with each other, therefore disrupting their function. There are supplements that you can take, such as Alpha Lipoic Acid, that slow that down. There is an experimental drug called ALT-711 (phenacyldimenthylthiazolium chloride) that can dissolve the AGE cross-links without damaging the original tissues.

Atherosclerosis is an aging process, and it’s not just taking place in the coronary arteries, of course. It can take place in the cerebral arteries, which ultimately causes cerebral strokes, but it also takes place in the arteries all throughout the body. It can lead to impotence, claudication of the legs and limbs, and like most of these processes, it’s not linear but exponential, in that it grows by a certain percentage each year.

So that’s why the process of atherosclerosis hardly seems to progress for a long time, but then when gets to a certain point it can really explode and develop very quickly. We have an extensive program on reducing atherosclerosis, which is both an aging process and a disease process. We cite a number of important supplements that reduce cholesterol and inflammation—such as the omega-3 fats EPA and DHA—as well as the Statin drugs. Supplements like Curcumin [Tumeric] are helpful.

Supplements that reduce inflammation will reduce both cancer and the inflammatory processes that lead to atherosclerosis. There are a number of supplements that reduce Homocysteine, which appears to encourage atherosclerosis. These include Folic Acid, vitamins B2, B6, and B12, magnesium, and trimethylglycine (TMG).

So you can attack atherosclerosis five or six different ways, and we recommend that you do them all, so long as there aren’t contraindications for combining treatments. But generally these treatments are independent of each other. If you go to war, you don’t just send in the helicopters. You send in the helicopters, the tanks, the planes, and the infantry. You use your intelligence resources, and attack the enemy every way that you can, with all of your resources. And that’s really what you need to do with these conditions, because they represent very threatening processes. If you are sufficient proactive, you can generally get them under control.

David: What are some of the new anti-aging treatments that you foresee coming along in the near future, like from stem cell research and therapeutic cloning?

Ray: It depends on what you mean by “near future,” because in ten or fifteen years we foresee a fundamentally transformed landscape.

David: Let’s just say prior to nanotechnology, and then that will be the next question.

Ray: is the next frontier is biotechnology. We’re really now entering an era where we can reprogram biology. We’ve sequenced the genome, and we are now reverse-engineering the genome. We’re understanding the roles that the genes play, how they express themselves in proteins, and how these proteins then play roles in sequences of biochemical steps that lead to both orderly processes as well as dysfunction—disease processes, such as atherosclerosis and cancer—and we are gaining the means to reprogram those processes.

For example, we can now turn genes off with RNA interference. This is a new technique that just emerged a few years ago—a medication with little pieces of RNA that latch on to the messenger RNA that is expressing a targeted gene and destroys it, therefore preventing the gene from expressing itself. This effectively turns the gene off. So right away that methodology has lots of applications.

Take the fat insulin receptor gene. That gene basically says ‘hold on to every calorie because the next hunting season may not work out so well.’ That was a good strategy, not only for humans, but for most species, thousands of years ago. It’s still probably a good strategy for animals living in the wild. But we’re not animals living in the wild. It was good for humans a thousand years ago when calories were few and far between. Today it underlies an epidemic of obesity. How about turning that gene off in the fat cells? What would happen?

That was actually tried in mice, and these mice ate ravenously, and they remained slim. They got the health benefits of being slim. They didn’t get diabetes. They didn’t get heart disease. They lived twenty percent longer. They got the benefits of caloric restriction while doing the opposite. So turning off the fat insulin receptor gene in fat cells is the idea. You don’t want to turn it off in muscle cells, for example. This is one methodology that could enable us to prevent obesity, and actually maintain an optimal weight no matter what we ate. So that’s one application of RNA interference.

There’s a number of genes that have been identified that promote atherosclerosis, cancer, diabetes and many other diseases. We’d like to selectively turn those genes off, and slow down or stop these disease processes. There are certain genes that appear to have an influence on the rate of aging. We can amplify the expression of genes similarly, and we can actually add new genetic information—that’s gene therapy. Gene therapy has had problems in the past, because we’ve had difficulty putting the genetic information in the right place at the right chromosome. There are new techniques now that enable us to do that correctly.

For example, you can take a cell out of the body, insert the genetic information in vitro—which is much easier to do in a Petri dish—and examine whether or not the insertion went as intended. If it ended up in the wrong place you discard it. You keep doing this until you get it right. You can examine the cell and make sure that it doesn’t have any DNA errors. So then you take this now modified cell—that has also been certified as being free of DNA errors—and it’s replicated in the Petri dish, so that hundreds of millions of copies of it are created. Then you inject these cells back into the patient, and they will work their way into the right tissues. A lung cell is not going to end up in the liver.

In fact, this was tried by a company I’m involved with, United Therapeutics. I advise them and I’m on their board. They tried this with a fatal disease called pulmonary hypertension, which is a lung disease, and these modified cells ended up in the right place—in the lungs—and actually cured pulmonary hypertension in animal tests. It has now been approved for human trials. That’s just one example of many of being able to actually add new genes. So we’ll be able to subtract genes, over-express certain genes, under-express genes, and add new genes.

Another methodology is cell transdifferentiation, a broader concept then just stem cells. One of the problems with stem cell research or stem cell approaches is this. If I want to grow a new heart, or maybe add new heart cells, because my heart has been damaged, or if I need new pancreatic Islet cells because my pancreatic Islet cells are destroyed, or need some other type of cells, I’d like it to have my DNA. The ultimate stem cell promise, the holy grail of these cell therapies, is to take my own skin cells and reprogram them to be a different kind of cell. How do you do that? Actually, all cells have the same DNA. What’s the difference between a heart cell and pancreatic Islet cell?

Well, there are certain proteins, short RNA fragments, and peptides that control gene expression. They tell the heart cells that only the certain genes which should be expressed in a heart cell are expressed. And we’re learning how to manipulate which genes are expressed. By adding certain proteins to the cell we can reprogram a skin cell to be a heart cell or a pancreatic Islet cell. This has been demonstrated in just the last couple years. So then we can create in a Petri dish as many heart cells or pancreatic Islet cells as I need, with my own DNA, because they’re derived from my cells. Then inject them, and they’ll work their way into the right tissues. In the process we can discard cells that have DNA errors, so we can basically replenish our cells with DNA-corrected cells.

While we are at it, we can also extend the telomeres. That’s another aging process. As the cells replicate, these little repeating codes of DNA called telomeres grow shorter. They’re like little beads at the end of the DNA strands. One falls off every time the cell replicates, and there’s only about fifty of them. So after a certain number of replications the cell can’t replicate anymore. There is actually one enzyme that controls this—telomerase, which is capable of extending the telomeres. Cancer actually works by creating telomerase to enable them to replicate without end. Cancer cells become immortal because they can create telomerase.

As we’re rejuvenating our cells, turning a skin cell into a kind of cell that I need, making sure that it has it’s DNA corrected, we can also extend it’s telomeres by using telomerase in the Petri dish. Then you got this new cell that’s just like my heart cells were when I was twenty. Now you can replicate that, and then inject it, and really rejuvenate all of the body’s tissues with young versions of my cells. So that’s cell rejuvenation. That’s one idea, or one technique, and there’s many different variations of that.

Then there’s turning on and off enzymes. Enzymes are the work horses of biology. Genes express themselves as enzymes, and the enzymes actually go and do the work. And we can add enzymes. We can turn enzymes off. One example of that is Torcetrapib, which destroys one enzyme, and that enzyme destroys HDL, the good cholesterol in the blood. So when people take Torcetrapib their HDL, good cholesterol levels, soar, and atherosclerosis dramatically slows down or stops. The phase 2 trials were very encouraging, and Pfizer is spending a record one billion dollars on the phase 3 trials. That’s just one example of many of these paradigm: manipulating enzymes. So there’s many different ideas to get in and very precisely reprogram the information processes that underlie biology, to undercut disease processes and aging processes, and move them towards healthy rejuvenated processes.

David: How do you see robotics, artificial intelligence, and nanotechnology affecting human health and life span in the future?

Ray: I mentioned that we talk about three bridges to radical life extension in Fantastic Voyage. Bridge One is aggressively applying today’s knowledge, and that’s, of course, a moving frontier, as we learn and gain more and more knowledge. In Chapter 10 of Fantastic Voyage I talk about my program, and at the end I mention that one part of my program is what I call a positive health slope, which means that my program is not fixed.

I spend a certain amount of time every week studying a number of things—new research, new drug developments that are coming out, new information about myself that may come from testing. Just reading the literature I might discover something that’s in fact old knowledge, but there’s so much information out there, I haven’t read everything. So I’m constantly learning more about health and medicine and my own body and modifying my own program. I probably make some small change every week. That doesn’t mean my program is unstable. My program is quite stable, but I’m fine-tuning at the edges quite frequently.

Bridge Two we’ve just been talking about, which is the biotechnology revolution. A very important insight that really changes one’s perspective is to understand that progress is exponential and not linear. So many sophisticated scientists fail to take this into consideration. They just assume that the progress is going to continue at the current pace, and they make this mistake over and over again. If you consider the exponential pace of this process, ten or fifteen years from now we will have really dramatic tools in the forms of medications and cell therapies that can reprogram our health, within the domain of biology.

Bridge Three is nanotechnology. The golden era will be in about twenty years from now. They’ll be some applications earlier, but the real Holy Grail of nanotechnology are nanobots, blood cell-size devices that can go inside the body and keep us healthy from inside. If that sounds very futuristic, I’d actually point out that we’re doing sophisticated tasks already with blood cell-size devices in animal experiments.

One scientist cured Type 1 diabetes in rats with a nano-engineered capsule that has seven nanometers pores. It lets insulin out in a controlled fashion and blocks antibodies. And that’s what is feasible today. MIT has a project of a nano-engineered device that’s actually smaller than a cell and it’s capable of detecting specifically the antigens that exist only on certain types of cancer cells. When it detects these antigens it latches onto the cell, and burrows inside the cell. It can detect once it’s inside and then at that point it releases a toxin which destroys the cancer cell. This has actually worked in the Petri dish, but that’s quite significant because there’s actually not that much that could be different in vivo as in vitro.

This is a rather sophisticated device because it’s going through these several different stages, and it can do all of these different steps. It’s a nano-engineered device in that it is created at the molecular level. So that’s what is feasible already. If you consider what I call the Law of Accelerating Returns, which is a doubling of the power of these information technologies every year, within twenty-five years these computation-communication technologies, and our understanding of biology, will be a billion times more advanced than it is today. We’re shrinking technology, according to our models, at a rate of over a hundred per 3-D volume per decade.

So these technologies will be a hundred thousand times smaller than they are today in twenty-five years, and a billion times more powerful. And look at what we can already do today experimentally. Twenty-five years from now these nanobots will be quite sophisticated. They’ll have computers in them. They’ll have communication devices. They’ll have small mechanical systems. They’ll really be little robots, and they be able to go inside the body and keep us healthy from inside. They will be able to augment the immune system by destroying pathogens. They will repair DNA errors, remove debris and reverse atherosclerosis. Whatever we don’t get around to finishing with biotechnology, we’ll be able to finish the job with these nano-engineered blood-cell sized robots or nanobots.

This really will provide radical life extension. The basic metaphor or analogy to keep in mind is to ask the question, How long does a house last? Aubrey de Grey uses this metaphor. The answer is, a house lasts as long as you want it to. If you don’t take care of it the house won’t last that long. It will fall apart. The roof will spring a leak and the house will quickly decay. On the other hand, if you’re diligent, and something goes wrong in the house you fix it. Periodically you upgrade the technology. You put in a new HVAC system and so forth. With this approach, the house will go on indefinitely, and we do have houses, in fact, that are thousands of years of old. So why doesn’t this apply to the human body?

The answer is that we understand how a house works. We understand how to fix a house. We understand all the problems a house can have, because we’ve designed them. We don’t yet have that knowledge and those tools today to do a comparable job with our body. We don’t understand all the things that could wrong, and we don’t have all the fixes for everything. But we will have this knowledge and these tools. We will have complete models of biology. We’ll reverse-engineered biology within twenty years, and we’ll have the means to go in and repair all of the problems we have identified.

We’ll be able to indefinitely fix the things that go wrong. We’ll have nanobots that can go in and proactively keep us healthy at a cellular level, without waiting until major diseases flare up, as well as stop and reverse aging processes. We’ll get to a point where people will not age. So when we talk about radical life extension we’re not talking about people growing old and becoming what we think of today as a 95 year old and then staying at a biological age 95 for hundreds of years.

We’re talking about people staying young and not aging. Actually, I’m talking about even more than that, because in addition to radical life extension, we’ll also have radical life expansion. The nanobots will be able to go inside the brain and extend our mental functioning by interacting with our biological neurons. Today we already have computers that are placed inside people’s brains, that replace diseased parts of the brain, like the neural implant for Parkinson’s disease. The latest generation of that implant allows you download new software to your neural implant from outside the patient—and that’s not an experiment, that’s an FDA approved therapy.

Today these neural implants require surgery, but ultimately we’ll be able to send these brain extenders into the nervous system noninvasively through the capillaries of the brain, without surgery. And we’ll be using them, not just to replace diseased tissue, but to go beyond our current abilities—to extend our memories, extend our pattern recognition and cognitive capabilities, and merge intimately with our technology. So we’ll have radical life expansion along with radical life extension. That’s my vision of what will happen in the next several decades.

David: What are you currently working on?

Ray: I spend maybe forty or fifty percent of my time communicating—in the form of books, articles, interviews, speeches. I give several speeches a month. Then there’s my Web site: KurzweilAI.net. We have a free daily or weekly newsletter; people can sign up by putting in their email address (which is kept in confidence) on the home page.

Then I have several businesses that I’m running, which are in the area of pattern recognition. I’ve been in the reading machine business for thirty-two years. I developed the first print-to-speech technology for the blind in 1976, and we’re introducing a new version that fits in your pocket. A blind person can take it out of their pocket, snap a picture of a handout at a meeting, a sign on a wall, the back of a cereal box, an electronic display, and the device will read it out loud to them through a earphone or speaker.

We’re developing a new medical technology, which is basically a smart undershirt that monitors your health. There will be a smart bra version for women. It takes a complete morphology EKG and monitors your breathing. So, for example, if you’re a heart patient it could tell you whether your atrial fibrillation is getting better or worse. When you’re exercising it can tell you if you’re getting a problem situation. So it gives you diagnostic information. It can also alert you if you should contact your doctor. So basically your undershirt is sending this information by Bluetooth to your cell phone, and your cell phone is running this cardiac evaluation software. So that’s another project.

Then we have Ray and Terry’s longevity products at RayandTerry.com, which goes along with Fantastic Voyage. We have about 20 products available now, and we’ll have about fifty within a few months. Basically all the things we recommend in the book will be available. We also have combinations. So, for example, if you want to lower cholesterol we have a cholesterol-lowering product, and you don’t have to buy the eight or nine different supplements separately. We put all of our recommendations together in one combination to make it easy for people to follow. There’s a total daily care, that has basic nutritional supplements, like vitamins and minerals, and coenzyme Q-10, and so on. We have a meal-replacement shake that is low carbohydrate, has no sugar, but actually tastes good, which is actually very unique, because if you’ve ever tasted a low-carb meal-replacement shake you know that there in general the taste is not desirable. This might sound promotional but that was the objective, and it’s actually made up of the nutritional supplements that we recommend. So that’s another company, and those are the companies that we’re running.

Entropy (information theory)

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Entropy_(information_theory) In info...