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Wednesday, October 25, 2023

Origin of the Moon

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Origin_of_the_Moon
The Moon's heavily cratered far-side

The origin of the Moon is usually explained by a Mars-sized body striking the Earth, making a debris ring that eventually collected into a single natural satellite, the Moon, but there are a number of variations on this giant-impact hypothesis, as well as alternative explanations, and research continues into how the Moon came to be formed. Other proposed scenarios include captured body, fission, formed together (condensation theory, synestia), planetesimal collisions (formed from asteroid-like bodies), and collision theories.

The standard giant-impact hypothesis suggests that a Mars-sized body, called Theia, impacted the proto-Earth, creating a large debris ring around Earth, which then accreted to form the Moon. This collision also resulted in the 23.5° tilted axis of the Earth, thus causing the seasons. The Moon's oxygen isotopic ratios seem to be essentially identical to Earth's. Oxygen isotopic ratios, which may be measured very precisely, yield a unique and distinct signature for each Solar System body. If Theia had been a separate protoplanet, it probably would have had a different oxygen isotopic signature than proto-Earth, as would the ejected mixed material. Also, the Moon's titanium isotope ratio (50Ti/47Ti) appears so close to the Earth's (within 4 parts per million) that little if any of the colliding body's mass could likely have been part of the Moon.

Formation

"One of the challenges to the longstanding theory of the collision, is that a Mars-sized impacting body, whose composition likely would have differed substantially from that of Earth, likely would have left Earth and the moon with different chemical compositions, which they are not."

—NASA

Lunar sample 61016, better known as "Big Muley"

Some theories have been stated that presume the proto-Earth had no large moons early in the formation of the Solar System, 4.425 billion years ago, Earth being basically rock and lava. Theia, an early protoplanet the size of Mars, hit Earth in such a way that it ejected a considerable amount of material away from Earth. Some proportion of these ejecta escaped into space, but the rest consolidated into a single spherical body in orbit about Earth, creating the Moon.

The hypothesis requires a collision between a proto-Earth about 90% of the diameter of present Earth, and another body the diameter of Mars (half of the terrestrial diameter and a tenth of its mass). The latter has sometimes been referred to as Theia, the name of the mother of Selene, the Moon goddess in Greek mythology. This size ratio is needed in order for the resulting system to have sufficient angular momentum to match the current orbital configuration. Such an impact would have put enough material into orbit around Earth to have eventually accumulated to form the Moon.

Computer simulations show a need for a glancing blow, which causes a portion of the collider to form a long arm of material that then shears off. The asymmetrical shape of the Earth following the collision then causes this material to settle into an orbit around the main mass. The energy involved in this collision is impressive: possibly trillions of tonnes of material would have been vaporized and melted. In parts of the Earth, the temperature would have risen to 10,000 °C (18,000 °F).

The Moon's relatively small iron core (compared to other rocky planets and moons in the Solar System) is explained by Theia's core mostly merging into that of Earth. The lack of volatiles in the lunar samples is also explained in part by the energy of the collision. The energy liberated during the reaccretion of material in orbit around Earth would have been sufficient to melt a large portion of the Moon, leading to the generation of a magma ocean.

The newly formed Moon orbited at about one-tenth the distance that it does today, and spiraled outward because of tidal friction transferring angular momentum from the rotations of both bodies to the Moon's orbital motion. Along the way, the Moon's rotation became tidally locked to Earth, so that one side of the Moon continually faces toward Earth. Also, the Moon would have collided with and incorporated any small preexisting satellites of Earth, which would have shared the Earth's composition, including isotopic abundances. The geology of the Moon has since been more independent of the Earth.

A 2012 study on the depletion of zinc isotopes on the Moon found evidence for volatile depletion consistent with the giant-impact origin for Earth and the Moon. In 2013, a study was released that indicated that water in lunar magma is indistinguishable from that in carbonaceous chondrites and nearly the same as that of Earth in isotopic composition.

Derivatives of the hypothesis

Although the giant-impact hypothesis explains many aspects of the Earth–Moon system, there are still a few unresolved problems, such as the Moon's volatile elements not being as depleted as expected from such an energetic impact.

Another issue is lunar and Earth isotope comparisons. In 2001, the most precise measurement yet of the isotopic signatures of Moon rocks was published. Surprisingly, the Apollo lunar samples carried an isotopic signature identical to Earth rocks, but different from other Solar System bodies. Because most of the material that went into orbit to form the Moon was thought to come from Theia, this observation was unexpected. In 2007, researchers from Caltech showed that the likelihood of Theia having an identical isotopic signature as the Earth is very small (less than 1 percent chance). Published in 2012, an analysis of titanium isotopes in Apollo lunar samples showed that the Moon has the same composition as Earth, which conflicts with the Moon forming far from Earth's orbit.

Merger of two planets

To help resolve these problems, a theory published in 2012 posits that two bodies—each five times the size of Mars—collided, then recollided, forming a large disc of mixed debris that eventually formed Earth and the Moon.

Immediate origin of the Moon as a post-impact satellite

The Moon is traditionally thought to have coalesced from the debris ejected by a giant impact onto the early Earth. However, such models struggle to explain the similar isotopic compositions of Earth and lunar rocks at the same time as the system's angular momentum, and the details of potential impact scenarios are hotly debated. Above a high resolution threshold for simulations, a study published in 2022 finds that giant impacts can immediately place a satellite with similar mass and iron content to the Moon into orbit far outside Earth's Roche limit. Even satellites that initially pass within the Roche limit can reliably and predictably survive, by being partially stripped and then torqued onto wider, stable orbits. Furthermore, the outer layers of these directly formed satellites are molten over cooler interiors and are composed of around 60% proto-Earth material. This could alleviate the tension between the Moon's Earth-like isotopic composition and the different signature expected for the impactor. Immediate formation opens up new options for the Moon's early orbit and evolution, including the possibility of a highly tilted orbit to explain the lunar inclination, and offers a simpler, single-stage scenario for the origin of the Moon.

Multiple impacts

In 2004, Russian astrophysicist Nikolai Gorkavyi proposed a novel model titled the multiple large asteroid impacts model, which found support from a notable group of Russian astronomers in 2013 and later, in 2017, by planetary researchers at Weizmann Institute of Science in Rehovot, Israel. In general terms, the main idea of the model suggests that the Moon was formed as a result of a violent rain of large asteroids (1–100 km) that repeatedly hammered the fledgling Earth over millions of years. Such a series of smaller impacts, which were likely more common in the early Solar System, could blast enough rocky Earth debris into orbit to form a protosatellite disk which later forms into a small moonlet. As repeated impacts created more balls of debris, the moonlets could merge over time into one large moon.

Synestia hypothesis

In 2018 researchers at Harvard and the UC Davis developed computer models demonstrating that one possible outcome of a planetary collision is that it creates a synestia, a mass of vaporized rock and metal which forms a biconcave disc extending beyond the lunar orbit. The synestia will eventually shrink and cool to accrete the satellite and reform the impacted planet.

Moon – Oceanus Procellarum ("Ocean of Storms")
 
Ancient rift valleys – rectangular structure (visible – topography – GRAIL gravity gradients) (October 1, 2014).
 
Ancient rift valleys – context.
 
Ancient rift valleys – closeup (artist's concept).

Other hypotheses

Density[20]
Body Density
g/cm3
Mercury 5.4
Venus 5.2
Earth 5.5
Moon 3.3

Capture

This hypothesis states that the Moon was captured by the Earth. This model was popular until the 1980s, and some points in its favor are the Moon's size, orbit, and tidal locking.

One problem is understanding the capture mechanism. A close encounter of two planetary bodies typically results in either collision or altered trajectories. For this hypothesis to work, there might have been a large atmosphere around the primitive Earth, which would slow the movement of the Moon by aerobraking before it could escape. That hypothesis may also explain the irregular satellite orbits of Jupiter and Saturn. However, this hypothesis does not adequately explain the essentially identical oxygen isotope ratios of the two bodies.

Earth and Moon to scale, 500 km per pixel

Fission

This is the now discredited hypothesis that an ancient, rapidly spinning Earth expelled a piece of its mass. This was proposed by George Darwin (son of the famous biologist Charles Darwin) in 1879[23] and retained some popularity until Apollo. The Austrian geologist Otto Ampferer in 1925 also suggested the emerging of the Moon as cause for continental drift.

It was proposed that the Pacific Ocean represented the scar of this event. Today it is known that the oceanic crust that makes up this ocean basin is relatively young, about 200 million years old or less, whereas the Moon is much older. The Moon does not consist of oceanic crust but of mantle material, which originated inside the proto-Earth in the Precambrian.

Thorium concentrations on the Moon, as mapped by Lunar Prospector

Accretion

The hypothesis of accretion suggests that the Earth and the Moon formed together as a double system from the primordial accretion disk of the Solar System or even a black hole. The problem with this hypothesis is that it does not explain the angular momentum of the Earth-Moon system or why the Moon has a relatively small iron core compared to the Earth (25% of its radius compared to 50% for the Earth).

Nuclear explosion

Dutch scientists Rob de Meijer and Wim van Westrenen suggested in 2010 that the Moon may have formed from a nuclear explosion caused by the centrifugal force of an earlier, spinning proto-Earth. The centrifugal force would have concentrated heavy elements such as thorium and uranium on the equatorial plane and at the boundary between the Earth's outer core and mantle. If the concentrations of these radioactive elements were high enough, this could have led to a nuclear chain reaction that became supercritical, causing a nuclear explosion ejecting the Moon into orbit. This natural nuclear fission reactor has been observed on Earth at a much smaller scale.

Additional theories and studies

2011

In 2011, it was theorized that a second moon existed 4.5 billion years ago, and later had an impact with the Moon, as a part of the accretion process in the formation of the Moon.

2013

One hypothesis, presented only as a possibility, was that the Earth captured the Moon from Venus.

2017

Uranium–lead dating of Apollo 14 zircon fragments shows the age of the Moon to be about 4.51 billion years.

2020

A team of researchers of the Miniature Radio Frequency (Mini-RF) instrument on NASA's Lunar Reconnaissance Orbiter (LRO) spacecraft concluded that the Moon's subsurface may be richer in metals, like iron and titanium, more than scientists had believed.

In July 2020 scientists report that the Moon formed 4.425 ±0.025 bya, about 85 million years later than thought, and that it hosted an ocean of magma for substantially longer than previously thought (for ~200 million years).

Dow Chemical Company

From Wikipedia, the free encyclopedia
Dow Inc.
TypePublic company
IndustryChemicals
Founded1897; 126 years ago
April 1, 2019; 4 years ago (current iteration)
FounderHerbert Henry Dow
HeadquartersMidland, Michigan, U.S
Area served
Worldwide
Key people
ProductsChemicals, plastics, performance chemicals, catalysts, coatings, Hydrocarbon exploration
RevenueIncrease US$56.90 billion (2022)
Decrease US$6.09 billion (2022)
Decrease US$4.58 billion (2022)
Total assetsDecrease US$60.60 billion (2022)
Total equityIncrease US$20.72 billion (2022)
Number of employees
37,800 (2022)
ParentDow Inc. 
Subsidiaries
Websitedow.com
Footnotes / references

The Dow Chemical Company, officially Dow Inc., is an American multinational corporation headquartered in Midland, Michigan, United States. The company is among the three largest chemical producers in the world.

With a presence in about 160 countries, it employs about 37,800 people worldwide. Dow has been called the "chemical companies' chemical company", as its sales are to other industries rather than directly to end-use consumers. Dow is a member of the American Chemistry Council.

In 2015, Dow and fellow chemical company DuPont agreed to a corporate reorganization which involved the merger and split of Dow and DuPont into three different companies. The plan commenced in 2017, when Dow and DuPont merged to form DowDuPont, and finalized in April 2019, as the materials science division was spun off from DowDuPont and took the name of the Dow Chemical Company.

History

Early history

Founder Herbert Henry Dow
Bromine

Dow was founded in 1897 by chemist Herbert Henry Dow, who invented a new method of extracting the bromine that was trapped underground in brine at Midland, Michigan. Dow originally sold only bleach and potassium bromide, achieving a bleach output of 72 tons a day in 1902. Early in the company's history, a group of British manufacturers tried to drive Dow out of the bleach business by cutting prices. Dow survived by also cutting its prices and, although losing about $90,000 in income, began to diversify its product line. In 1905, German bromide producers began dumping bromides at low cost in the U.S. in an effort to prevent Dow from expanding its sales of bromides in Europe. Instead of competing directly for market share with the German producers, Dow bought the cheap German-made bromides and shipped them back to Europe. This undercut his German competitors. Even in its early history, Dow set a tradition of rapidly diversifying its product line. Within twenty years, Dow had become a major producer of agricultural chemicals, elemental chlorine, phenol and other dyestuffs, and magnesium metal.

During World War I, Dow Chemical supplied many war materials the United States had previously imported from Germany. Dow produced magnesium for incendiary flares, monochlorobenzene and phenol for explosives, and bromine for medicines and tear gas. By 1918, 90 percent of Dow Chemical production was geared towards the war effort. At this time, Dow created the diamond logo that is still used by the company. After the war, Dow continued research in magnesium, and developed refined automobile pistons that produced more speed and better fuel efficiency. The Dowmetal pistons were used heavily in racing vehicles, and the 1921 winner of the Indianapolis 500 used the Dowmetal pistons in his vehicle.

In the 1930s, Dow began producing plastic resins, which would grow to become one of the corporation's major businesses. Its first plastic products were ethylcellulose, made in 1935, and polystyrene, made in 1937.

Diversification and expansion

From 1940 to 1941, Dow built its first plant in Freeport, Texas to produce magnesium extracted from seawater rather than underground brine. The Freeport plant is Dow's largest site – and the largest integrated chemical manufacturing site in the country. The site grew quickly – with power, chlorine, caustic soda and ethylene also soon in production. Growth of this business made Dow a strategic business during World War II, as magnesium became important to manufacture lightweight parts for aircraft. Based on 2002–2003 data, the Freeport plants produced 27 billion lbs of product – or 21% of Dow's global production. In 1942, Dow began its foreign expansion with the formation of Dow Chemical of Canada in Sarnia, Ontario, to produce styrene for use in styrene-butadiene synthetic rubber. Also during the war, Dow and Corning began their joint venture, Dow Corning, to produce silicones for military and, later, civilian use.

The "Ethyl-Dow Chemical Co." plant at "Kure's Beach" NC, the only plant on the East Coast producing bromine from seawater, was attacked by a German U-boat in 1942.

In the post-war era, Dow began expanding outside of North America, founding its first overseas subsidiary in Japan in 1952, and in several other nations soon thereafter. Based largely on its growing plastics business, Dow opened a consumer products division beginning with Saran wrap in 1953. Based on its growing chemicals and plastics businesses, Dow's sales exceeded $1 billion in 1964, $2 billion in 1971.

Nuclear weapons

From 1951 to 1975, Dow managed the Rocky Flats Plant near Denver, Colorado. Rocky Flats was a nuclear weapons production facility that produced plutonium triggers for hydrogen bombs.

Contamination from fires and radioactive waste leakage plagued the facility under Dow's management. In 1957 a fire burned plutonium dust in the facility and sent radioactive particles into the atmosphere.

The Department of Energy transferred management of the facility to Rockwell International in 1975. In 1990, nearby residents filed a class action lawsuit against Dow and Rockwell for environmental contamination of the area; the case was settled in 2017 for $375 million. According to the Appellate Court, the owners of the 12,000 properties in the class-action area had not proved that their properties were damaged or they had suffered bodily injury.

Vietnam War: napalm and Agent Orange

U.S. Army helicopter spraying Agent Orange over agricultural land during the Vietnam War

The United States military used napalm bombs during the Vietnam War until 1973. Dow was one of several manufacturers who began producing the napalm B compound under government contract from 1965. After experiencing protests and negative publicity, the other suppliers discontinued manufacturing the product, leaving Dow as the sole provider. The company said that it carefully considered its position, and decided, as a matter of principle, "its first obligation was to the government". Despite a boycott of its products by anti-war groups and harassment of recruiters on some college campuses, Dow continued to manufacture napalm B until 1969.

Agent Orange, a chemical defoliant containing dioxin, was also manufactured by Dow in New Plymouth, New Zealand, and Midland, Michigan, in the United States for use by the British military during the Malayan Emergency and the U.S. military during the Vietnam War. In 2005, a lawsuit was filed by Vietnamese victims of Agent Orange against Dow and Monsanto Co., which also supplied Agent Orange to the military. The lawsuit was dismissed. In 2012, Monsanto agreed to a $93 million settlement as a result of a case pursued by ex-Monsanto employees and citizens in the city of Nitro, WV. In 1949, a chemical plant in Nitro experienced an explosion that damaged a tank containing 2,4,5-T, one of the composites that is used in the production of Agent Orange. The settlement of the case included $9 million for the cleanup of affected homes in the area, and $84 million to cover the medical monitoring and treatment of people affected by the explosion, as well as legal costs for the claimants. No care has been given for the in state damage done by the Headquarters in Midland, Michigan, and they refuse to give the evidence to the community.

Dow Corning breast implants

A major manufacturer of silicone breast implants, Dow Corning (Dow Chemical's Joint Venture with Corning Inc.) was sued for personal damages caused by ruptured implants. On 6 October 2005, all such cases pending in the District Court against the company were dismissed. A number of large, independent reviews of the scientific literature, including the Institute of Medicine in the United States, have subsequently found that silicone breast implants do not cause breast cancers or any identifiable systemic disease.

Bhopal disaster

Dow Chemical banner in Bhopal, India, 2010

The Bhopal disaster occurred at a pesticide plant owned by Union Carbide India Ltd., a subsidiary of Union Carbide, in 1984. A gas cloud containing methyl isocyanate and other chemicals spread to the neighborhoods near the plant where more than half a million people lived. The government of Madhya Pradesh confirmed 3,787 deaths related to the gas release. The leak caused 558,125 injuries, including 38,478 temporary partial injuries and approximately 3,900 severely and permanently disabling injuries. Union Carbide was sued by the Government of India and agreed to an out-of-court settlement of US$470 million in 1989. Dow Chemical acquired Union Carbide in 2001. Activists want Dow Chemical to clean up the site which is now controlled by the state of Madhya Pradesh.

DBCP

Until the late 1970s, Dow produced DBCP (1,2-dibromo-3-chloropropane), a soil fumigant, and nematicide, sold under the names the Nemagon and Fumazone. Plantation workers who alleged that they became sterile or were stricken with other maladies subsequently sued both Dow and Dole Foods in Latin American courts. The cases were marred by extensive fraud, including the falsification of test results and the recruitment of plaintiffs who had never worked at Dole plantations. While Nicaraguan courts awarded the plaintiffs over $600 million in damages, they have been unable to collect any payment from the companies. A group of plaintiffs then sued in the United States, and, on 5 November 2007, a Los Angeles jury awarded them $3.2 million. Dole and Dow vowed to appeal the decision. On 23 April 2009 a Los Angeles judge threw out two cases against Dole and Dow due to fraud and extortion by lawyers in Nicaragua recruiting fraudulent plaintiffs to make claims against the company. The ruling casts doubt on $2 billion in judgments in similar lawsuits.

Tax evasion

In February 2013 a federal court rejected two tax shelter transactions entered into by Dow that created approximately $1 billion in tax deductions between 1993 and 2003. The court wrote that the transactions were "schemes that were designed to exploit perceived weaknesses in the tax code and not designed for legitimate business reasons". The schemes were created by Goldman Sachs and the law firm of King & Spalding, and involved creating a partnership that Dow operated out of its European headquarters in Switzerland. Dow stated that it had paid all tax assessments with interest. The case was against the Internal Revenue Service seeking a refund of the taxes paid. The case was appealed to the 5th Circuit court, where Dow's claims were again rejected. Dow has petitioned for an en banc hearing by the 5th Circuit, arguing that the decision was contrary to established case law.

Price fixing

Dow Chemical was implicated in a price-fixing scheme that inflated the cost of polyurethane for customers. The U.S. Justice Department closed an investigation in 2007, but a class-action lawsuit won at a jury trial in 2013. Dow settled the suit in 2016 for $835 million.

Recent mergers, acquisitions and reorganization

1990s – transition from geographic alignment to global business units

In the early 1990s, Dow embarked on a major structural reorganization. The former reporting hierarchy was geographically based, with the regional president reporting directly to the overall company president and CEO. The new organization combines the same businesses from different sites, irrespective of which region they belong (i.e. the vice president for Polystyrene is now in charge of these plants all over the world).

Union Carbide merger

At the beginning of August 1999, Dow agreed to purchase Union Carbide Corp. (UCC) for $9.3 billion in stock. At the time, the combined company was the second largest chemical company, behind DuPont. This led to protests from some stockholders, who feared that Dow did not disclose potential liabilities related to the Bhopal disaster.

William S. Stavropoulos served as president and chief executive officer of Dow from 1995 to 2000, then again from 2002 to 2004. He relinquished his board seat on 1 April 2006, having been a director since 1990 and chairman since 2000. During his first tenure, he led the purchase of UCC, which proved controversial, as it was blamed for poor results under his successor as chief executive officer, Mike Parker. Parker was dismissed and Stavropoulos returned from retirement to lead Dow.

2006–2008 restructuring

On 31 August 2006, Dow announced that it planned to close facilities at five locations:

  • Sarnia, Ontario was Dow's first manufacturing site in Canada, located in the Chemical Valley area alongside other petrochemical companies. In 1942, the Canadian government invited Dow to build a plant there to produce styrene (an essential raw material used to make synthetic rubber for World War II). Dow then built a polystyrene plant in 1947. In August 1985, the site accidentally discharged 11,000 litres of perchloroethylene (a carcinogenic dry cleaning chemical) into the St. Clair River, which gained infamy in the media as "The Blob", and Dow Canada was charged by the Ministry of the Environment. Up to the early 1990s, Dow Canada's headquarters was located at the Modeland Centre, and a new three-story complex called the River Centre was opened up on the Sarnia site in 1993 to house Research and Development. Since then, several plants (Dow terminology for a production unit) on the site have been dismantled, particularly the Basic Chemicals including Chlor Alkali unit whose closure was announced in 1991 and carried out in 1994 which affected nearly half of the site's employees. The Dow Canada headquarters were moved to Calgary, Alberta in 1996, and the Modeland Centre was sold to Lambton County and the City of Sarnia with Dow leasing some office space. The Dow Fitness Centre was donated to the YMCA of Sarnia-Lambton in 2003. The Sarnia Site's workforce declined from a peak of 1600 personnel in the early 1990s to about 400 by 2002. In the late 1990s, land on the site was sold to TransAlta which built a natural gas power plant that begun operations in 2002 to supply electricity to the remaining Sarnia site plants and facilities, so that Dow could close its older less efficient steam plant (originally coal fired and later burning natural gas). On 31 August 2006, Dow announced that the entire Sarnia site would cease operations at the end of 2008. The Sarnia site had been supplied with ethylene through a pipeline from western Canada but BP officials warned Dow that shipments from the pipeline had to be suspended for safety reasons, and the loss of an affordable supply for the low density polyethylene plant rendered all the other operations at the site non-competitive. The Low-Density Polyethylene and Polystyrene units closed in 2006, followed by the Latex Unit in 2008, and finally the Propylene Oxide Derivatives Unit in April 2009. Dow afterward focused its efforts on the environmental remediation of the vacant site, which was sold to TransAlta. The former site has since been renamed the Bluewater Energy Park, with the River Centre remaining available for lease.
  • One plant at its site in Barry (South Wales), a triple string STR styrene polymer production unit. Integral in the company's development of the super high melt foam specific polymers & Styron A-Tech high gloss, high impact polymers.
  • One plant at its site in Porto Marghera (Venice), Italy.
  • Two plants at its site in Fort Saskatchewan, Alberta, Canada.

On 2 November 2006, Dow and Izolan, the leading Russian producer of polyurethane systems, formed the joint venture Dow-Izolan and built a manufacturing facility in the city of Vladimir. Also in 2006, Dow formed the Business Process Service Center (BPSC).

In December 2007, Dow announced a series of moves to revamp the company. A 4 December announcement revealed that Dow planned to exit the automotive sealers business in 2008 or 2009. Within several weeks, Dow also announced the formation of a joint venture, later named K-Dow, with Petrochemical Industries Co. (PIC), a subsidiary of Kuwait Petroleum Corporation. In exchange for $9.5 billion, the agreement included Dow selling 50-percent of its interest in five global businesses: polyethylene, polypropylene and polycarbonate plastics, and ethylenamines and ethanolamines. The agreement was terminated by PIC on 28 December 2008.

Rohm & Haas Co. purchase

On 10 July 2008, Dow agreed to purchase all of the common equity interest of Rohm and Haas Co. for $15.4 billion, which equated to $78 per share. The buyout was financed with equity investments of $3 billion by Berkshire Hathaway Inc. and $1 billion by the Kuwait Investment Authority. The purpose of the deal was to move Dow Chemical further into specialty chemicals, which offer higher profit margins than the commodities market and are more difficult to enter for the competition. The purchase was criticized by many on Wall Street who believed Dow Chemical overpaid (about a 75 percent premium on the previous day's market capital) to acquire the company; however, the high bid was needed to ward off competing bids from BASF. The transaction to purchase the outstanding interest of Rohm and Haas was closed on 1 April 2009.

Accelerated implementation

On 8 December 2008, Dow announced that due to the Financial crisis of 2007–2008, it would accelerate job cuts resulting from its reorganization. The announced plan included closing 20 facilities, temporarily idling 180 plants, and eliminating 5,000 full-time jobs (about 11 percent of its work-force) and 6,000 contractor positions.

Strategy interruption

Citing the global recession that began in the latter half of 2008, the Kuwaiti government scuttled the K-Dow partnership on 28 December 2008. The collapse of the deal dealt a blow to Dow CEO Andrew Liveris' vision of restructuring the company to make it less cyclical. However, on 6 January 2009 Dow Chemical announced they were in talks with other parties who could be interested in a major joint venture with the company. Dow also announced they that it would be seeking to recover damages related to the failed joint venture from PIC.

After the K-Dow deal collapsed, some speculated that the company would not complete the Rohm & Haas transaction, as the cash from the former transaction was expected to fund the latter. The deal was expected to be finalized in early 2009 and was to form one of the nation's largest specialty chemicals firms in the U.S. However, on 26 January 2009 the company informed Rohm and Haas that it would be unable to complete the transaction by the agreed upon deadline. Dow cited a deteriorated credit market and the collapse of the K-Dow Petrochemical deal as reasons for failing to timely close the merger. Around the same time, CEO Andrew Liveris said a first- time cut to the company's 97- year- old dividend policy was not "off the table". On 12 February 2009, the company declared a quarterly dividend of $0.15/share, down from $0.42 the previous quarter. The cut represented the first time the company had diminished its investor payout in the dividend's 97-year history.

The transaction to purchase the outstanding interest of Rohm and Haas closed on 1 April 2009. After negotiating the sale of preferred stock with Rohm and Hass' two largest stockholders and extending their one-year bridge loan an additional year, the company purchased Rohm and Haas for $15 billion ($78 a share) on 9 March 2009.

2007 dismissal of senior executives

On 12 April 2007, Dow dismissed two senior executives for "unauthorized discussions with third parties about the potential sale of the company". The two figures are executive vice president Romeo Kreinberg, and director and former CFO J. Pedro Reinhard. Dow claims they were secretly in contact with JPMorgan Chase; at the same time, a story surfaced in Britain's Sunday Express regarding a possible leveraged buyout of Dow. The two executives have since filed lawsuits claiming they were fired for being a threat to CEO Liveris, and that the allegations were concocted as a pretext. However, in June 2008 Dow Chemical and the litigants announced a settlement in which Kreinberg and Reinhard dropped their lawsuits and admitted taking part in discussions "which were not authorized by, nor disclosed to, Dow's board concerning a potential LBO" and acknowledged that it would have been appropriate to have informed the CEO and board of the talks.

2008 sale of zoxamide business

In summer 2008, Dow sold its zoxamide business to Gowan Company. Included in the sale were the trademarks for a potato and grape fungicide called Gavel (fungicide). It is employed by potato growers to control early and late potato blight and to suppress tuber blight, and is also registered in Canada for control of downy mildew in grapes, except in British Columbia.

2014 – New operating segments

In the fourth quarter of 2014, Dow announced new operating segments in response to its previously announced leadership changes. The company stated it would give further support to its end-market orientation and increase its alignment to Dow's key value chains – ethylene and propylene.

U.S. Gulf Coast investments

Several plants on the Gulf Coast of the US have been in development since 2013, as part of Dow's transition away from naphtha. Dow estimates the facilities will employ about 3000 people, and 5000 people during construction. The plants will manufacture materials for several of its growing segments, including hygiene and medical, transportation, electrical and telecommunications, packaging, consumer durables and sports and leisure.

Dow's new propane dehydrogenation (PDH) facility in Freeport, Texas, was expected to come online in 2015, with a first 750000 tonne per year unit, while other units would become available in the future. An ethylene production facility was expected to start up in the first half of 2017.

Chlorine merger

On 27 March 2015, Dow and Olin Corporation announced that the boards of directors of both companies unanimously approved a definitive agreement under which Dow will separate a significant portion of its chlorine business and merge that new entity with Olin in a transaction that will create an industry leader, with revenues approaching $7 billion. Olin, the new partnership, became the largest chlorine producer in the world.

2015 merger and 2019 separation with DuPont

Andrew N. Liveris

On 11 December 2015, Dow announced that it would merge with DuPont, in an all-stock deal. The combined company, which was known as DowDuPont, had an estimated value of $130 billion, was equally held by the shareholders of both companies, and maintained their respective headquarters in Michigan and Delaware. Within two years of the merger's closure, DowDuPont was set to split into three separate public companies, focusing on the agriculture, chemical, and specialty product industries. Shareholders of each company held 50% of the combined company. In the new entity, Dow Chemical chief executive officer Andrew N. Liveris became executive chairman and DuPont chief executive officer Edward D. Breen became chief executive officer. In January 2017, the merger was pushed back a second time pending regulatory approvals.

The same day, Dow also announced that it had reached a deal to acquire Corning Incorporated's stake in their joint venture Dow Corning for $4.8 billion in cash and a roughly 40% stake in Hemlock Semiconductor Corporation.

In 2019, DowDuPont de-merged, forming Dow Inc. The spin-off was completed on 1 April 2019, at which time Dow Inc. became an independent, publicly traded company, and the direct parent company of The Dow Chemical Company. Also in 2019 Dow employees won an Adhesives and Sealants Council Innovation Award for "UV Curable Primer that Enables Hard to Bond INFUSE Olefin Block Copolymer Midsole Foams in High Performance Footwear".

Focus on higher margin business

Dow Chemical has begun to shed commodity chemical businesses, such as those making the basic ingredients for grocery bags and plastic pipes, because their profit margins only average 5–10%. Dow is, as of 2015, focusing its resources on specialty chemicals that earn profit margins of at least 20%.

Dioxin contamination

Watershed of the Tittabawassee River, including Midland, site of the Dow Chemical works

Areas along Michigan's Tittabawassee River, which runs within yards of Dow's main plant in Midland, were found to contain elevated levels of the cancer-causing chemical dioxin in November 2006. The dioxin was located in sediments two to ten feet below the surface of the river, and, according to The New York Times, "there is no indication that residents or workers in the area are directly exposed to the sites". However, people who often eat fish from the river had slightly elevated levels of dioxin in their blood. In July 2007, Dow reached an agreement with the Environmental Protection Agency to remove 50,000 cubic yards (38,000 m3) of sediment from three areas of the riverbed and levees of the river that had been found to be contaminated. In November 2008, Dow Chemical along with the United States Environmental Protection Agency and Michigan Department of Environmental Quality agreed to establish a Superfund to address dioxin cleanup of the Tittabawassee River, Saginaw River and Saginaw Bay.

Sale of herbicide business

In December 2015, Dow Chemicals agreed to sell part of its global herbicide business, which had reported falling sales for nearly a year. A portfolio of weed killers known as dinitroanilines was sold to privately held Gowan Company, a family owned company located in Yuma, Arizona, which markets a variety of pesticides to the agricultural and horticultural industries. The global trademarks for Treflan (pesticide)®, which can be sprayed on field corn, cotton and some fruit and vegetables, were included in the sale, as well as a formulation and packaging facility in Fort Saskatchewan, Alberta, Canada. Edge (pesticide)®, Team (pesticide)®, Bonalan (pesticide)® and Sonalan (pesticide)®, intellectual property and labels for herbicides based on the molecules trifluralin, benfluralin and ethalfluralin were also included in the sale. Annual grasses and small seeded broadleaf weeds can be controlled with these products in a wide range of crops including cotton, beans, canola, cereals, crucifers, cucurbits, and vegetables. Dinitroanilines, are also known as "DNA herbicides", and have been commercialised at least since 1970.

2020 evacuation

In May 2020, Dow Chemical and many other areas in Midland County, Michigan were forced to evacuate due to high flooding which was caused by the breach of the Edenville and Sanford dams following two days of heavy rainfall in the area.

Products

Former Dow Chemical Corporate headquarters in Midland, Michigan

Dow is a large producer of plastics, including polystyrene, polyurethane, polyethylene, polypropylene, and synthetic rubber. It is also a major producer of ethylene oxide, various acrylates, surfactants, and cellulose resins. It produces agricultural chemicals including the pesticide Lorsban and consumer products including Styrofoam. Some Dow consumer products, including Saran wrap, Ziploc bags, and Scrubbing Bubbles were sold to S. C. Johnson & Son in 1997.

Performance plastics

Performance plastics make up 25% of Dow's sales, with many products designed for the automotive and construction industries. The plastics include polyolefins such as polyethylene and polypropylene, as well as polystyrene used to produce Styrofoam insulating material. Dow manufactures epoxy resin intermediates including bisphenol A and epichlorohydrin. Saran resins and films are based on polyvinylidene chloride (PVDC).

Performance chemicals

The Performance Chemicals (17 percent of sales) segment produces chemicals and materials for water purification, pharmaceuticals, paper coatings, paints and advanced electronics. Major product lines include nitroparaffins, such as nitromethane, used in the pharmaceutical industry and manufactured by Angus Chemical Company, a wholly owned subsidiary of The Dow Chemical Co. Important polymers include Dowex ion-exchange resins, acrylic and polystyrene latex, as well as Carbowax polyethylene glycols. Specialty chemicals are used as starting materials for production of agrochemicals and pharmaceuticals.

Water purification

Dow Water and Process Solutions (DW&PS) is a business unit which manufactures Filmtec reverse osmosis membranes which are used to purify water for human use in the Middle East. The technology was used during the 2000 Summer Olympics and 2008 Summer Olympics. The DW&PS business unit remained with DowDuPont following the April 2019 spin-off.

Agricultural sciences

Agricultural Sciences, or (Dow AgroSciences), provides 7 percent of sales and is responsible for a range of insecticides (such as Lorsban), herbicides and fungicides. Seeds from genetically modified plants are also an important area of growth for the company. Dow AgroSciences sells seeds commercially under the following brands: Mycogen (grain corn, silage corn, sunflowers, alfalfa, and sorghum), Atlas (soybean), PhytoGen (cotton) and Hyland Seeds in Canada (corn, soybean, alfalfa, navy beans and wheat). The Dow AgroSciences business unit was spun off into Corteva Inc, on 3 June 2019.

Basic plastics

Basic plastics (26 percent of sales) end up in everything from diaper liners to beverage bottles and oil tanks. Products are based on the three major polyolefins – polystyrene (such as Styron resins), polyethylene and polypropylene.

Basic chemicals

Basic chemicals (12 percent of sales) are used internally by Dow as raw materials and are also sold worldwide. Markets include dry cleaning, paints and coatings, snow and ice control and the food industry. Major products include ethylene glycol, caustic soda, chlorine, and vinyl chloride monomer (VCM, for making PVC). Ethylene oxide and propylene oxide and the derived alcohols ethylene glycol and propylene glycol are major feedstocks for the manufacture of plastics such as polyurethane and PET.

Hydrocarbons and energy

The Hydrocarbons and Energy operating segment (13 percent of sales) oversees energy management at Dow. Fuels and oil-based raw materials are also procured. Major feedstocks for Dow are provided by this group, including ethylene, propylene, 1,3-butadiene, benzene and styrene.

Hand sanitizer

In March 2020, during the Coronavirus outbreak, Dow expanded its European hand sanitizer production, providing the product free to hospitals.

Finances

For the fiscal year 2017, Dow Chemicals reported earnings of US$1.5 billion, with an annual revenue of US$62.5 billion, an increase of 29.8% over the previous fiscal cycle. Dow Chemicals shares traded at over $67 per share, and its market capitalization was valued at over US$121.1 billion in September 2018.

Year Revenue
in mil. USD$
Net income
in mil. USD$
Total Assets
in mil. USD$
2005 46,307 4,515 45,934
2006 49,124 3,724 45,581
2007 53,375 2,887 48,801
2008 57,361 579 45,474
2009 44,875 336 66,018
2010 53,674 1,970 69,588
2011 59,985 2,402 69,224
2012 56,786 842 69,605
2013 57,080 4,447 69,501
2014 58,167 3,432 68,687
2015 48,778 7,345 67,938
2016 48,158 3,978 79,511
2017 62,484 1,460 192,164

Environmental record

Superfund site in Uravan

In 2003, Dow agreed to pay $2 million, the largest penalty ever in a pesticide case, to the state of New York for making illegal safety claims related to its pesticides. The New York Attorney General's Office stated that Dow AgroSciences had violated a 1994 agreement with the State of New York to stop advertisements making safety claims about its pesticide products. Dow stated that it was not admitting to any wrongdoing, and that it was agreeing to the settlement to avoid a costly court battle.

According to the United States Environmental Protection Agency (EPA), Dow has some responsibility for 96 of the United States' Superfund toxic waste sites, placing it in 10th place by number of sites. One of these, a former UCC uranium and vanadium processing facility near Uravan, Colorado, is listed as the sole responsibility of Dow. The rest are shared with numerous other companies. Fifteen sites have been listed by the EPA as finalized (cleaned up) and 69 are listed as "construction complete", meaning that all required plans and equipment for cleanup are in place.

In 2007, the chemical industry trade association – the American Chemical Council – gave Dow an award of 'Exceptional Merit' in recognition of longstanding energy efficiency and conservation efforts. Between 1995 and 2005, Dow reduced energy intensity (BTU per pound produced) by 22 percent. This is equivalent to saving enough electricity to power eight million US homes for a year. The same year, Dow subsidiary, Dow Agrosciences, won a United Nations Montreal Protocol Innovators Award for its efforts in helping replace methyl bromide – a compound identified as contributing to the depletion of the ozone layer. In addition, Dow Agrosciences won an EPA "Best of the Best" Stratospheric Ozone Protection Award. The United States Environmental Protection Agency (EPA) named Dow as a 2008 Energy Star Partner of the Year for excellence in energy management and reductions in greenhouse gas emissions.

Carbon footprint

Dow Chemical Company reported Total CO2e emissions (Direct + Indirect) for the twelve months ending 31 December 2020 at 33,100 Kt (+700/+2.2% y-o-y) and plans to reduce emissions 15% by 2030 from a 2019 base year.

Dow's annual Total CO2e Emissions - Location-Based Scope 1 + Scope 2 (in kilotonnes)
Dec 2018 Dec 2019 Dec 2020
36,000 32,400 33,100

Board of directors

The final board of directors of The Dow Chemical Co. were, prior to the closing of the merger with DuPont on 1 September 2017:

The ten members of the board of directors of today's iteration of Dow are:

Equality (mathematics)

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