Great man theory

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Napoleon, a typical great man, said to have created the "Napoleonic" era through his military and political genius.

The great man theory is an approach to the study of history popularised in the 19th century according to which history can be largely explained by the impact of great men, or heroes: highly influential and unique individuals who, due to their natural attributes, such as superior intellect, heroic courage, extraordinary leadership abilities, or divine inspiration, have a decisive historical effect. The theory is primarily attributed to the Scottish essayist, historian, and philosopher Thomas Carlyle, who gave a series of lectures on heroism in 1840, later published as On Heroes, Hero-Worship, & the Heroic in History, in which he states:

Universal History, the history of what man has accomplished in this world, is at bottom the History of the Great Men who have worked here. They were the leaders of men, these great ones; the modellers, patterns, and in a wide sense creators, of whatsoever the general mass of men contrived to do or to attain; all things that we see standing accomplished in the world are properly the outer material result, the practical realisation and embodiment, of Thoughts that dwelt in the Great Men sent into the world: the soul of the whole world's history, it may justly be considered, were the history of these.

This theory is usually contrasted with "history from below", which emphasizes the life of the masses creating overwhelming waves of smaller events which carry leaders along with them. Another contrasting school is historical materialism.

Overview

Bust of Thomas Carlyle by Thomas Woolner

Carlyle stated that "The History of the world is but the Biography of great men", reflecting his belief that heroes shape history through both their personal attributes and divine inspiration. In his book Heroes and Hero-Worship, Carlyle saw history as having turned on the decisions, works, ideas, and characters of "heroes", giving detailed analysis of six types: The hero as divinity (such as Odin), prophet (such as Muhammad), poet (such as Shakespeare), priest (such as Martin Luther), man of letters (such as Rousseau), and king (such as Napoleon). Carlyle also argued that the study of great men was "profitable" to one's own heroic side; that by examining the lives led by such heroes, one could not help but uncover something about one's own true nature.

As Sidney Hook notes, a common misinterpretation of the theory is that "all factors in history, save great men, were inconsequential", whereas Carlyle is instead claiming that great men are the decisive factor, owing to their unique genius. Hook then goes on to emphasize this uniqueness to illustrate the point: "Genius is not the result of compounding talent. How many battalions are the equivalent of a Napoleon? How many minor poets will give us a Shakespeare? How many run of the mine scientists will do the work of an Einstein?"

American scholar Frederick Adams Woods supported the great man theory in his work The Influence of Monarchs: Steps in a New Science of History. Woods investigated 386 rulers in Western Europe from the 12th century until the French Revolution in the late 18th century and their influence on the course of historical events.

The Great Man approach to history was most fashionable with professional historians in the 19th century; a popular work of this school is the Encyclopædia Britannica Eleventh Edition (1911) which contains lengthy and detailed biographies about the great men of history, but very few general or social histories. For example, all information on the post-Roman "Migrations Period" of European History is compiled under the biography of Attila the Hun. This heroic view of history was also strongly endorsed by some philosophers, such as Léon Bloy, Kierkegaard, Oswald Spengler and Max Weber.

Georg Wilhelm Friedrich Hegel, proceeding from providentialist theory, argued that "what is real is reasonable" and World-Historical individuals are World-Spirit's agents. Hegel wrote: "Such are great historical men—whose own particular aims involve those large issues which are the will of the World-Spirit." Thus, according to Hegel, a great man does not create historical reality himself but only uncovers the inevitable future.

In Untimely Meditations, Friedrich Nietzsche writes that "the goal of humanity lies in its highest specimens". Although Nietzsche's body of work shows some overlap with Carlyle's line of thought, Nietzsche expressly rejected Carlyle's hero cult in Ecce Homo.

Assumptions

This theory rests on two main assumptions, as pointed out by Villanova University:

1. Every great leader is born already possessing certain traits that will enable them to rise and lead on instinct.
2. The need for them has to be great for these traits to then arise, allowing them to lead.

This theory, and history, claims these great leaders as heroes that were able to rise against the odds to defeat rivals while inspiring followers along the way. Theorists say that these leaders were then born with a specific set of traits and attributes that make them ideal candidates for leadership and roles of authority and power. This theory relies then heavily on born rather than made, nature rather than nurture and cultivates the idea that those in power deserve to lead and shouldn't be questioned because they have the unique traits that make them suited for the position.

Responses

Herbert Spencer was a contemporary critic of Carlyle's great man theory.

Herbert Spencer's critique

One of the most forceful critics of Carlyle's formulation of the great man theory was Herbert Spencer, who believed that attributing historical events to the decisions of individuals was an unscientific position. He believed that the men Carlyle supposed "great men" are merely products of their social environment:

You must admit that the genesis of a great man depends on the long series of complex influences which has produced the race in which he appears, and the social state into which that race has slowly grown. ... Before he can remake his society, his society must make him.

— Herbert Spencer, The Study of Sociology

William James' defence

William James was a 19th-century philosopher and psychologist.

William James, in his 1880 lecture "Great Men, Great Thoughts, and the Environment", published in the Atlantic Monthly, forcefully defended Carlyle and refuted Spencer, condemning what James viewed as an "impudent", "vague", and "dogmatic" argument.

James' defence of the great man theory can be summarized as follows: The unique physiological nature of the individual is the deciding factor in making the great man, who, in turn, is the deciding factor in changing his environment in a unique way, without which the new environment would not have come to be, wherein the extent and nature of this change is also dependent on the reception of the environment to this new stimulus. To begin his argument, he first sardonically claims that these inherent physiological qualities have as much to do with "social, political, geographical [and] anthropological conditions" as the "conditions of the crater of Vesuvius has to do with the flickering of this gas by which I write".

James argues that genetic anomalies in the brains of these great men are the decisive factor by introducing an original influence into their environment. They might therefore offer original ideas, discoveries, inventions and perspectives which "would not, in the mind of another individual, have engendered just that conclusion ... It flashes out of one brain, and no other, because the instability of that brain is such as to tip and upset itself in just that particular direction."

James then argues that these spontaneous variations of genius, i.e. the great men, which are causally independent of their social environment, subsequently influence that environment which in turn will either preserve or destroy the newly encountered variations in a form of evolutionary selection. If the great man is preserved then the environment is changed by his influence in "an entirely original and peculiar way. He acts as a ferment, and changes its constitution, just as the advent of a new zoological species changes the faunal and floral equilibrium of the region in which it appears." Each ferment, each great man, exerts a new influence on their environment which is either embraced or rejected and if embraced will in turn shape the crucible for the selection process of future geniuses.

In the words of William James, "If we were to remove these geniuses or alter their idiosyncrasies, what increasing uniformities would the environment exhibit?" James challenges Mr. Spencer or anyone else to provide a reply. According to James, there are two distinct factors driving social evolution: personal agents and the impact of their unique qualities on the overall course of events.

He thus concludes: "Both factors are essential to change. The community stagnates without the impulse of the individual. The impulse dies away without the sympathy of the community."

Other responses

Before the 19th century, Blaise Pascal begins his Three Discourses on the Condition of the Great (written it seems for a young duke) by telling the story of a castaway on an island whose inhabitants take him for their missing king. He defends in his parable of the shipwrecked king, that the legitimacy of the greatness of great men is fundamentally custom and chance. A coincidence that gives birth to him in the right place with noble parents and arbitrary custom deciding, for example, on an unequal distribution of wealth in favor of the nobles.

Leo Tolstoy's War and Peace features criticism of great-man theories as a recurring theme in the philosophical digressions. According to Tolstoy, the significance of great individuals is imaginary; as a matter of fact they are only "history's slaves," realizing the decree of Providence.

Jacob Burckhardt affirmed the historical existence of great men in politics, even excusing the rarity among them to possess "greatness of soul", or magnanimity: "Contemporaries believe that if people will only mind their own business political morality will improve of itself and history will be purged of the crimes of the 'great men.' These optimists forget that the common people too are greedy and envious and when resisted tend to turn to collective violence." Burckhardt predicted that the belittling of great men would lead to a lowering of standards and rise in mediocrity generally.

Mark Twain suggests in his essay "The United States of Lyncherdom" that "moral cowardice" is "the commanding feature of the make-up of 9,999 men in the 10,000" and that "from the beginning of the world no revolt against a public infamy or oppression has ever been begun but by the one daring man in the 10,000, the rest timidly waiting, and slowly and reluctantly joining, under the influence of that man and his fellows from the other ten thousands."

In 1926, William Fielding Ogburn noted that Great Men history was being challenged by newer interpretations that focused on wider social forces. While not seeking to deny that individuals could have a role or show exceptional qualities, he saw Great Men as inevitable products of productive cultures. He noted for example that if Isaac Newton had not lived, calculus would have still been discovered by Gottfried Leibniz, and suspected that if neither man had lived, it would have been discovered by someone else. Among modern critics of the theory, Sidney Hook is supportive of the idea; he gives credit to those who shape events through their actions, and his book The Hero in History is devoted to the role of the hero and in history and influence of the outstanding persons.

In the introduction to a new edition of Heroes and Hero-Worship, David R. Sorensen notes the modern decline in support for Carlyle's theory in particular but also for "heroic distinction" in general. He cites Robert K. Faulkner as an exception, a proponent of Aristotelian magnanimity who in his book The Case for Greatness: Honorable Ambition and Its Critics, criticizes the political bias in discussions on greatness and heroism, stating: "the new liberalism’s antipathy to superior statesmen and to human excellence is peculiarly zealous, parochial, and antiphilosophic."

Ian Kershaw wrote in 1998 that "The figure of Hitler, whose personal attributes – distinguished from his political aura and impact – were scarcely noble, elevating or enriching, posed self-evident problems for such a tradition." Some historians like Joachim Fest responded by arguing that Hitler had a "negative greatness". By contrast, Kershaw rejects the Great Men theory and argues that it is more important to study wider political and social factors to explain the history of Nazi Germany. Kershaw argues that Hitler was an unremarkable person, but his importance came from how people viewed him, an example of Max Weber's concept of charismatic leadership.

Charisma

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Charisma

Charisma (/kəˈrɪzmə/) is a personal quality of presence or charm that other people find psychologically compelling. In the fields of sociology and political science, psychology and management the term charismatic describes a type of leadership. In Christian theology, the term charisma appears as the Spiritual gift (charism) which is an endowment with an extraordinary power given by the Holy Spirit.

Etymology

The English word charisma derives from the Ancient Greek word χάρισμα (chárisma), which denotes a "favor freely given" and the "gift of grace". The singular term and the plural term χαρίσματα (charismata) both derive from the word χάρις (charis), meaning grace and charm. In religious praxis, the Ancient Greeks ascribed personality charisma to their pantheon of gods and goddesses, e.g. attributing charm, beauty, nature, creativity, and fertility to the individual Charites (Χάριτες). In theology and sociology, the denotations of the word charisma expanded from the Ancient Greek definition into the connotations of divinely-conferred charisma and of personality charisma, thus in A History of Charisma (2010), John Potts said that:

Contemporary charisma maintains, however, the irreducible character ascribed to it by [Max] Weber: it retains a mysterious, elusive quality. Media commentators regularly describe charisma as the X-factor. . . . The enigmatic character of charisma also suggests a connection — at least to some degree — to the earliest manifestations of charisma as a spiritual gift.

Moreover, the Koine Greek dialect spoken in Ancient Rome employed the terms charisma and charismata without the religious connotations.

History

Divinely conferred charisma

See also: Spiritual gift

The Hebrew Bible and the Christian Bible record the development of divinely conferred charisma. In the Hebrew text the idea of charismatic leadership is generally signaled by the use of the noun hen (favor) or the verb hanan (to show favor). The Greek term for charisma (grace or favor), and its root charis (grace) replaced the Hebrew terms in the Greek translation of the Hebrew Bible (the 3rd century BCE Septuagint). Throughout, "the paradigmatic image of the charismatic hero is the figure who has received God's favor". In other words, divinely conferred charisma applied to highly revered figures.

Thus, Eastern Mediterranean Jews in the 1st century CE had notions of charis and charisma that embraced the range of meanings found in Greek culture and the spiritual meanings from the Hebrew Bible. From this linguistic legacy of fused cultures, in 1 Corinthians, Paul the Apostle introduced the meaning that the Holy Spirit bestowed charism and charismata, "the gift of God's grace," upon individuals or groups. For Paul, "[t]here is a clear distinction between charisma and charis; charisma is the direct result of divine charis or grace."

In the New Testament Epistles, Paul refers to charisma or its plural charismata seven times in 1 Corinthians, written in Koine (or common) Greek around 54 CE. He elaborates on his concepts with six references in Romans (c. 56). He makes three individual references in 2 Corinthians 56, 1 Timothy, and 2 Timothy 62–67. The seventeenth and only other mention of charisma is in 1 Peter.

The gospels, written in the late first century, apply divinely conferred charisma to revered figures. Examples are accounts of Jesus' baptism and of his transfiguration, in which disciples see him as radiant with light, appearing together with Moses and Elijah. Another example is Gabriel's greeting to Mary as "full of grace". In these and other instances early Christians designated certain individuals as possessing "spiritual gifts", and these gifts included "the ability to penetrate the neighbour to the bottom of his heart and spirit and to recognize whether he is dominated by a good or by an evil spirit and the gift to help him to freedom from his demon".

Believers characterized their revered religious figures as having "a higher perfection… a special Charisma". Then, with the establishment of the Christian Church, "the old charismatic gifts and free offerings were transformed into a hierarchical sacerdotal system". The focus on the institution rather than divinely inspired individuals increasingly dominated religious thought and life, and that focus went unchanged for centuries.

In the 17th century church leaders, notably in the Latin tradition, accented "individual gifts [and] particular talents imparted by God or the Holy Spirit." The 19th century brought a shift in emphasis toward individual and spiritual aspects of charisma; Protestant and some Catholic theologians narrowed the concept to superlative, out-of-the-ordinary, and virtuoso gifts. Simultaneously, the term became alienated from the much wider meaning that early Christians had attached to it. Still, the narrowed term projected back to the earlier period "A systematically reflected and highly differentiated understanding of charisma was often unconsciously infused into the Scriptures and writings of the church fathers, so that these texts were no longer read through the eyes of the authors".

These dialectic meanings influenced changes in Pentecostalism in the late 19th century, and charismatic movements in some mainline churches in the mid-20th century. The discussion in the 21st Century Religion section explores what charisma means in these and other religious groups.

Personality charisma

See also: Charismatic authority

The basis for modern secular usage comes from German sociologist Max Weber. He discovered the term in the work of Rudolph Sohm, a German church historian whose 1892 Kirchenrecht was immediately recognized in Germany as an epoch-making work. It also stimulated a debate between Sohm and leading theologians and religion scholars, which lasted more than twenty years and stimulated a rich polemical literature. That debate and literature had made charisma a popular term when Weber used it in The Protestant Ethic and the Spirit of Capitalism and in his Sociology of Religion. Perhaps because he assumed that readers already understood the idea, Weber's early writings lacked definition or explanation of the concept. In the collection of his works, Economy and Society, he identified the term as a prime example of action he labeled "value-rational," in distinction from and opposition to action he labeled "Instrumentally rational." Because he applied meanings for charisma similar to Sohm, who had affirmed the purely charismatic nature of early Christianity, Weber's charisma would have coincided with the divinely conferred charisma sense defined above in Sohm's work.

Weber introduced the personality charisma sense when he applied charisma to designate a form of authority. To explain charismatic authority, he developed his classic definition:

Charisma is a certain quality of an individual personality by virtue of which he is set apart from ordinary men and treated as endowed with supernatural, superhuman, or at least specifically exceptional powers or qualities. These as such are not accessible to the ordinary person, but are regarded as of divine origin or as exemplary, and on the basis of them the individual concerned is treated as a leader.

Here Weber extends the concept of charisma beyond supernatural to superhuman and even to exceptional powers and qualities. Sociologist Paul Joosse examined Weber's famous definition, and found that:

through simple yet profoundly consequential phrases such as "are considered" and "is treated", charisma becomes a relational, attributable, and at last a properly sociological concept.... For Weber, the locus of power is in the led, who actively (if perhaps unconsciously) invest their leaders with social authority.

In other words, Weber indicates that it is followers who attribute powers to the individual, emphasizing that "the recognition on the part of those subject to authority" is decisive for the validity of charisma.

Weber died in 1920, leaving "disordered, fragmentary manuscripts without even the guidance of a plan or table of the proposed contents". One unfinished manuscript contained his above quoted definition of charisma. It took over a quarter century for his work to be translated into English. With regard to charisma, Weber's formulations are generally regarded as having revived the concept from its deep theological obscurity. However, even with the admirable translations and prefaces of his entire works, many scholars have found Weber's formulations ambiguous. For the past half-century they have debated the meaning of many Weberian concepts, including the meaning of charisma, the role of followers, and the degree of a supernatural component.

Trait leadership

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Trait_leadership

Trait leadership is defined as integrated patterns of personal characteristics that reflect a range of individual differences and foster consistent leader effectiveness across a variety of group and organizational situations.

The theory is developed from early leadership research which focused primarily on finding a group of heritable attributes that differentiate leaders from nonleaders. Leader effectiveness refers to the amount of influence a leader has on individual or group performance, followers’ satisfaction, and overall effectiveness. Many scholars have argued that leadership is unique to only a select number of individuals, and that these individuals possess certain immutable traits that cannot be developed. Although this perspective has been criticized immensely over the past century, scholars still continue to study the effects of personality traits on leader effectiveness. Research has demonstrated that successful leaders differ from other people and possess certain core personality traits that significantly contribute to their success. Understanding the importance of these core personality traits that predict leader effectiveness can help organizations with their leader selection, training, and development practices.

History of research

The emergence of the concept of trait leadership can be traced back to Thomas Carlyle's "great man" theory, which stated that "The History of the World [...] was the Biography of Great Men". Subsequent commentators interpreted this view to conclude that the forces of extraordinary leadership shape history. Influenced by Carlyle, Francis Galton in Hereditary Genius took this idea further. Galton found that leadership was a unique property of extraordinary individuals and suggested that the traits that leaders possessed were immutable and could not be developed. Throughout the early 1900s, the study of leadership focused on traits. Cowley commented that the approach to the research of leadership has usually been and should always be through the study of traits. Many theorists, influenced by Carlyle and Galton, believed that trait leadership depended on the personal qualities of the leader, however, they did not assume that leadership only resides within a select number of people. This trait perspective of leadership was widely accepted until the late 1940s and early 1950s, when researchers began to deem personality traits insufficient in predicting leader effectiveness.

In 1948, Stogdill stated that leadership exists between persons in a social situation, and that persons who are leaders in one situation may not necessarily be leaders in other situations. This statement has been cited ubiquitously as sounding the death knell for trait-leadership theory. Furthermore, scholars commented that any trait's effect on leadership behavior will always depend on the situation. Subsequently, leadership stopped being characterized by individual differences, and instead both behavioral and situational analyses of leadership took over. These analyses began to dominate the field of leadership research. During this period of widespread rejection, several dominant theories took the place of trait leadership theory, including Fiedler's contingency model, Blake and Mouton's managerial grid, Hersey and Blanchard's situational leadership model, and transformational and transactional leadership models.

Despite the growing criticisms of trait leadership, the purported basis for the rejection of trait-leadership models began to encounter strong challenges in the 1980s. Zaccaro pointed out that even Stogdill's 1948 review, although cited as evidence against leader traits, contained conclusions supporting that individual differences could still be predictors of leader effectiveness. With an increasing number of empirical studies directly supporting trait leadership, traits have reemerged in the lexicon of the scientific research into leadership. In recent years, the research about leader traits has made some progress in identifying a list of personality traits that are highly predictive of leader effectiveness. Additionally, to account for the arguments for situational leadership, researchers have used the round-robin design methodology to test whether certain individuals emerge as leaders across multiple situations. Scholars have also proposed new ways of studying the relationship of certain traits to leader effectiveness. For instance, many suggest the integration of trait and behavioral theories to understand how traits relate to leader effectiveness. Furthermore, scholars have expanded their focus and have proposed looking at more malleable traits (ones susceptible to development) in addition to the traditional dispositional traits as predictors of leader effectiveness. Context is only now beginning to be examined as a contributor to leaders' success and failure. Productive narcissistic CEOs like Steven Jobs of Apple and Jack Welch of GE have demonstrated a gift for creating innovation, whereas leaders with idealized traits prove more successful in more stable environments requiring less innovation and creativity.

Cultural fit and leadership value can be determined by evaluating an individual's own behavior, perceptions of their employees and peers, and the direct objective results of their organization, and then comparing these findings against the needs of the company.

Leadership traits

The investigations of leader traits are always by no means exhaustive. In recent years, several studies have made comprehensive reviews about leader traits that have been historically studied. There are many ways that traits related to leadership can be categorized; however, the two most recent categorizations have organized traits into (1) demographic vs. task competence vs. interpersonal and (2) distal (trait-like) vs. proximal (state-like):

Demographic, task competence and interpersonal leadership

Based on a recent review of the trait leadership literature, Derue et al stated that most leader traits can be organized into three categories: demographic, task competence, and interpersonal attributes. For the demographics category, gender has by far received the most attention in terms of leadership; however, most scholars have found that male and female leaders are both equally effective. Task competence relates to how individuals approach the execution and performance of tasks. Hoffman et al grouped intelligence, conscientiousness, openness to experience, and emotional stability into this category. Lastly, interpersonal attributes are related to how a leader approaches social interactions. According to Hoffman et al, Extraversion and Agreeableness should be grouped into this category.

Distal (trait-like) vs. proximal (state-like)

Recent research has shifted from focusing solely on distal (dispositional/trait-like) characteristics of leaders to more proximal (malleable/state-like) individual differences often in the form of knowledge and skills. The hope is that emergence of proximal traits in trait leadership theory will help researchers elucidate the old question whether leaders are born or made. Proximal individual differences suggest that the characteristics that distinguish effective leaders from non-effective leaders are not necessarily stable through the life-span, implying that these traits may be able to be developed. Hoffman et al examined the effects of distal vs. proximal traits on leader effectiveness. They found that distal individual differences of achievement motivation, energy, flexibility, dominance, honesty/integrity, self-confidence, creativity, and charisma were strongly correlated with leader effectiveness. Additionally, they found that the proximal individual differences of interpersonal skills, oral communication, written communication, management skills, problem solving skills, and decision making were also strongly correlated with leader effectiveness. Their results suggested that on average, distal and proximal individual differences have a similar relationship with effective leadership.

Trait-leadership model

Figure 1: Model of Trait Leadership.

Zaccaro et al created a model to understand leader traits and their influence on leader effectiveness/performance. This model, shown in figure 1, is based on other models of leader traits and leader effectiveness/performance. and rests on two basic premises about leader traits. The first premise is that leadership emerges from the combined influence of multiple traits as opposed to emerging from the independent assessment of traits. Zaccaro argued that effective leadership is derived from an integrated set of cognitive abilities, social capabilities, and dispositional tendencies, with each set of traits adding to the influence of the other. The second premise is that leader traits differ in their proximal influence on leadership. This model is a multistage one in which certain distal attributes (i.e. dispositional attributes, cognitive abilities, and motives/values) serve as precursors for the development of proximal personal characteristics (i.e. social skills, problem solving skills and expertise knowledge). Adopting this categorization approach and based on several comprehensive reviews/meta-analysis of trait leadership in recent years, we tried to make an inclusive list of leader traits (Table 1). However, the investigations of leader traits are always by no means exhaustive.

Table 1. Leader Traits based on Zaccaro's (2004) Model

Extraversion (Distal - Dispositional)	One dimension of Big-Five Personality Model; represents the tendency to be sociable, assertive, active, and to experience positive affects, such as energy and zeal. In Judge et al meta-analysis, Extraversion was significantly positive related to leadership (r = .31).
Agreeableness (Distal - Dispositional)	One dimension of Big-Five Personality Model; refers to the tendency to be trusting, compliant, caring, and gentle. The relationship between Agreeableness and leadership is still ambiguous. In Judge et al meta-analysis, Agreeableness was not significantly related to leadership (r = .08).
Conscientiousness (Distal - Dispositional)	One dimension of Big-Five Personality Model; it comprises two related facets, namely achievement and dependability. In Judge et al meta-analysis, Conscientiousness was significantly positively related to leadership (r = .28).
Openness (Distal - Dispositional)	One dimension of Big-Five Personality Model; the disposition to be imaginative, nonconforming, unconventional, and autonomous. In Judge et al meta-analysis, Openness was found to be significantly positively related with leadership (r = .24).
Neuroticism (Distal - Dispositional)	One dimension of Big-Five Personality Model; represents the tendency to exhibit poor emotional adjustment and experience negative affects, such as anxiety, insecurity, and hostility. In Judge et al meta-analysis, Neuroticism was significantly negatively correlated with leadership (r = -.24).
Honesty/integrity (Distal - Dispositional)	Defined as the correspondence between work and deed, and as being truthful and non deceitful. Honesty/integrity was found to be positively related to leadership effectiveness of others and surrounding factors (r = .29).
Charisma (Distal - Dispositional)	Charismatic leaders are able to influence followers by articulating a compelling vision for the future, arousing commitment to organizational objectives and inspiring commitment and a sense of self-efficacy among followers. It has a significant influence on leadership (r = .57).
Intelligence (Distal - Cognitive Abilities)	Intelligence is regarded as the most important trait in psychology. It has been identified as one of the most critical traits that must be possessed by all leaders.
Creativity (Distal - Cognitive Abilities)	Creativity has been proposed as an important component of effective leadership. A significant relationship was found between creativity and leader effectiveness (r = .31).
Achievement motivation (Distal - Motive/Value)	The motivation to achieve has been proved to have significant relationship with leader effectiveness (r = .23).
Need for power (Distal - Motive/Value)	Characterized by the satisfaction leaders derive from exerting influence over the attitudes and behaviors of others. Need for power has a positive relationship with leader effectiveness.
Oral/written communication (Proximal - Social Skills)	Oral and written communication skills are found to be significantly correlated with leader effectiveness.
Interpersonal skills (Proximal - Social Skills)	Including a broad range of skills associated with un understanding of human behavior and the dynamics of groups, interpersonal skills were found to be significantly correlated with leader effectiveness.
General problem solving (Proximal - Problem Solving)	General problem solving skills were found to be one of the factors most strongly correlated with leader effectiveness.
Decision making (Proximal - Problem Solving)	Decision skills were also found to be one of the factors most strongly correlated with leader effectiveness.
Technical knowledge (Proximal - Expertise Knowledge)	Technical knowledge includes methods, processes, and equipment for conducting the specialized activities of the managers’ organizational unit. It has been proved to be positively correlated with leader effectiveness.
Management skills (Proximal - Expertise Knowledge)	Given that leaders’ key responsibilities involve coordinating the work of multiple constituents, the ability to manage is likely crucial to leader effectiveness. This relationship has also been proved significant.

Other models of trait leadership

Multiple models have been proposed to explain the relationship of traits to leader effectiveness. Recently, integrated trait leadership models were put forward by summarizing the historical findings and reconciling the conflict between traits and other factors such as situations in determining effective leadership. In addition to Zaccaro's Model of Leader Attributes and Leader Performance described in the previous section, two other models have emerged in recent trait leadership literature. The Leader Trait Emergence Effectiveness (LTEE) Model, created by Judge, Piccolo, & Kosalka in 2009, combines the behavioral genetics and evolutionary psychology theories of how personality traits are developed into a model that explains leader emergence and effectiveness. Additionally, this model separates objective and subjective leader effectiveness into different criterion. The authors created this model to be broad and flexible as to diverge from how the relationship between traits and leadership had been studied in past research. Another model that has emerged in the trait leadership literature is the Integrated Model of Leader Traits, Behaviors, and Effectiveness. This model combines traits and behaviors in predicting leader effectiveness and tested the mediation effect of leader behaviors on the relationship between leader traits and effectiveness. The authors found that some types of leader behaviors mediated the effect between traits and leader effectiveness. The results of a Derue et al study supported an integrated trait-behavioral model that can be used in future research.

Criticisms of trait leadership

Although there has been an increased focus by researchers on trait leadership, this theory remains one of the most criticized theories of leadership. Over the years, many reviewers of trait leadership theory have commented that this approach to leadership is "too simplistic", and "futile". Additionally, scholars have noted that trait leadership theory usually only focuses on how leader effectiveness is perceived by followers rather than a leader's actual effectiveness. Because the process through which personality predicts the actual effectiveness of leaders has been relatively unexplored. these scholars have concluded that personality currently has low explanatory and predictive power over job performance and cannot help organizations select leaders who will be effective. Furthermore, Derue et al found that leader behaviors are more predictive of leader effectiveness than are traits.

Another criticism of trait leadership is its silence on the influence of the situational context surrounding leaders. Stogdill found that persons who are leaders in one situation may not be leaders in another situation. Complementing this situational theory of leadership, Murphy wrote that leadership does not reside in the person, and it usually requires examining the whole situation. In addition to situational leadership theory, there has been growing support for other leadership theories such as transformational, transactional, charismatic, and authentic leadership theories. These theories have gained popularity because they are more normative than the trait and behavioral leadership theories.

Previously, studies failed to uncover a trait or group of traits that are consistently associated with leadership emergence or help differentiate leaders from followers, but more recent research supports a link between narcissism and the emergence of leadership. Additionally, trait leadership's focus on a small set of personality traits and neglect of more malleable traits such as social skills and problem solving skills has received considerable criticism. Lastly, trait leadership often fails to consider the integration of multiple traits when studying the effects of traits on leader effectiveness.

Implications for practice

Given the recent increase in evidence and support of trait leadership theory, scholars have suggested a variety of strategies for human resource departments within organizations. Companies should use personality traits as selection tools for identifying emerging leaders. These companies, however, should be aware of the individual traits that predict success in leader effectiveness as well as the traits that could be detrimental to leader effectiveness. For example, while Derue et al found that individuals who are high in Conscientiousness, Extraversion, and Agreeableness are predicted to be more likely to be perceived as successful in leadership positions, Judge et al wrote that individuals who are high in narcissism are more likely to be a liability in certain jobs. Narcissism is just one example of a personality trait that should be explored further by HR practitioners to ensure they are not placing individuals with certain traits in the wrong positions.

Complementing the suggestion that personality traits should be used as selection tools, it was found that the Big Five Personality traits were more strongly related to leadership than intelligence. This finding suggests that selecting leaders based on their personality is more important than selecting them based on intelligence. If organizations select leaders based on intelligence, it is recommended that these individuals be placed in leadership positions when the stress level is low and the individual has the ability to be directive.

Another way in which HR practitioners can use the research on trait leadership is for leadership development programs. Although inherent personality traits (distal/trait-like) are relatively immune to leadership development, Zaccaro suggested that proximal traits (state-like) will be more malleable and susceptible to leadership development programs. Companies should use different types of development interventions to stretch the existing capabilities of their leaders.

There is also evidence to suggest that Americans have an Extrovert Ideal, which dictates that people, most times unconsciously, favor the traits of extroverted individuals and suppress the qualities unique to introverts. Susan Cain's research points to a transition sometime around the turn of the century during which we stopped evaluating our leaders based on character and began judging them instead based on personality. While both extroverted and introverted leaders have been shown to be effective, we have a general proclivity towards extroverted traits, which when evaluating trait leadership, could skew our perception of what's that important.

Niels Bohr

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https://en.wikipedia.org/wiki/Niels_Bohr

Niels Bohr
Bohr in 1922
Born	Niels Henrik David Bohr 7 October 1885 Copenhagen, Denmark
Died	18 November 1962 (aged 77) Copenhagen, Denmark
Resting place	Assistens Cemetery
Alma mater	University of Copenhagen
Known for

Physics contributions
Spouse	Margrethe Nørlund ​ (m. 1912)​
Children	6; including Aage and Ernest
Awards	Nobel Prize in Physics (1922)

Scientific career
Fields	Theoretical physics
Institutions	University of Cambridge University of Copenhagen Victoria University of Manchester
Thesis	Studies on the Electron Theory of Metals (1911)
Doctoral advisor	Christian Christiansen
Other academic advisors	J. J. Thomson Ernest Rutherford
Doctoral students	Hendrik Kramers I. H. Usmani
Other notable students	Lev Landau
Association football career Position(s) Goalkeeper Youth career Akademisk Boldklub Senior career* Years Team Apps (Gls) Akademisk Boldklub *Club domestic league appearances and goals
Signature

Niels Henrik David Bohr (Danish: [ˈne̝ls ˈpoɐ̯ˀ]; 7 October 1885 – 18 November 1962) was a Danish physicist who made foundational contributions to understanding atomic structure and quantum theory, for which he received the Nobel Prize in Physics in 1922. Bohr was also a philosopher and a promoter of scientific research.

Bohr developed the Bohr model of the atom, in which he proposed that energy levels of electrons are discrete and that the electrons revolve in stable orbits around the atomic nucleus but can jump from one energy level (or orbit) to another. Although the Bohr model has been supplanted by other models, its underlying principles remain valid. He conceived the principle of complementarity: that items could be separately analysed in terms of contradictory properties, like behaving as a wave or a stream of particles. The notion of complementarity dominated Bohr's thinking in both science and philosophy.

Bohr founded the Institute of Theoretical Physics at the University of Copenhagen, now known as the Niels Bohr Institute, which opened in 1920. Bohr mentored and collaborated with physicists including Hans Kramers, Oskar Klein, George de Hevesy, and Werner Heisenberg. He predicted the properties of a new zirconium-like element, which was named hafnium, after the Latin name for Copenhagen, where it was discovered. Later, the synthetic element bohrium was named after him.

During the 1930s, Bohr helped refugees from Nazism. After Denmark was occupied by the Germans, he met with Heisenberg, who had become the head of the German nuclear weapon project. In September 1943 word reached Bohr that he was about to be arrested by the Germans, so he fled to Sweden. From there, he was flown to Britain, where he joined the British Tube Alloys nuclear weapons project, and was part of the British mission to the Manhattan Project. After the war, Bohr called for international cooperation on nuclear energy. He was involved with the establishment of CERN and the Research Establishment Risø of the Danish Atomic Energy Commission and became the first chairman of the Nordic Institute for Theoretical Physics in 1957.

Early life

Niels Henrik David Bohr was born in Copenhagen, Denmark, on 7 October 1885, the second of three children of Christian Bohr, a professor of physiology at the University of Copenhagen, and his wife Ellen née Adler, who came from a wealthy Jewish banking family. He had an elder sister, Jenny, and a younger brother Harald. Jenny became a teacher, while Harald became a mathematician and footballer who played for the Danish national team at the 1908 Summer Olympics in London. Niels was a passionate footballer as well, and the two brothers played several matches for the Copenhagen-based Akademisk Boldklub (Academic Football Club), with Niels as goalkeeper.

Bohr was educated at Gammelholm Latin School, starting when he was seven. In 1903, Bohr enrolled as an undergraduate at Copenhagen University. His major was physics, which he studied under Professor Christian Christiansen, the university's only professor of physics at that time. He also studied astronomy and mathematics under Professor Thorvald Thiele, and philosophy under Professor Harald Høffding, a friend of his father.

Bohr as a young man

In 1905 a gold medal competition was sponsored by the Royal Danish Academy of Sciences and Letters to investigate a method for measuring the surface tension of liquids that had been proposed by Lord Rayleigh in 1879. This involved measuring the frequency of oscillation of the radius of a water jet. Bohr conducted a series of experiments using his father's laboratory in the university; the university itself had no physics laboratory. To complete his experiments, he had to make his own glassware, creating test tubes with the required elliptical cross-sections. He went beyond the original task, incorporating improvements into both Rayleigh's theory and his method, by taking into account the viscosity of the water, and by working with finite amplitudes instead of just infinitesimal ones. His essay, which he submitted at the last minute, won the prize. He later submitted an improved version of the paper to the Royal Society in London for publication in the Philosophical Transactions of the Royal Society.

Harald became the first of the two Bohr brothers to earn a master's degree, which he earned for mathematics in April 1909. Niels took another nine months to earn his on the electron theory of metals, a topic assigned by his supervisor, Christiansen. Bohr subsequently elaborated his master's thesis into his much-larger Doctor of Philosophy thesis. He surveyed the literature on the subject, settling on a model postulated by Paul Drude and elaborated by Hendrik Lorentz, in which the electrons in a metal are considered to behave like a gas. Bohr extended Lorentz's model, but was still unable to account for phenomena like the Hall effect, and concluded that electron theory could not fully explain the magnetic properties of metals. The thesis was accepted in April 1911, and Bohr conducted his formal defence on 13 May. Harald had received his doctorate the previous year. Bohr's thesis was groundbreaking, but attracted little interest outside Scandinavia because it was written in Danish, a Copenhagen University requirement at the time. In 1921, the Dutch physicist Hendrika Johanna van Leeuwen would independently derive a theorem in Bohr's thesis that is today known as the Bohr–Van Leeuwen theorem.

Bohr and Margrethe Nørlund on their engagement in 1910

In 1910, Bohr met Margrethe Nørlund, the sister of the mathematician Niels Erik Nørlund. Bohr resigned his membership in the Church of Denmark on 16 April 1912, and he and Margrethe were married in a civil ceremony at the town hall in Slagelse on 1 August. Years later, his brother Harald similarly left the church before getting married. Bohr and Margrethe had six sons. The oldest, Christian, died in a boating accident in 1934, and another, Harald, was severely mentally disabled. He was placed in an institution away from his family's home at the age of four and died from childhood meningitis six years later. Aage Bohr became a successful physicist, and in 1975 was awarded the Nobel Prize in physics, like his father. A son of Aage, Vilhelm A. Bohr, is a scientist affiliated with the University of Copenhagen and the National Institute on Aging in the U.S. Hans [da] became a physician; Erik [da], a chemical engineer; and Ernest, a lawyer. Like his uncle Harald, Ernest Bohr became an Olympic athlete, playing field hockey for Denmark at the 1948 Summer Olympics in London.

Physics

Bohr model

Main article: Bohr model

In September 1911, Bohr, supported by a fellowship from the Carlsberg Foundation, travelled to England, where most of the theoretical work on the structure of atoms and molecules was being done. He met J. J. Thomson of the Cavendish Laboratory and Trinity College, Cambridge. He attended lectures on electromagnetism given by James Jeans and Joseph Larmor, and did some research on cathode rays, but failed to impress Thomson. He had more success with younger physicists like the Australian William Lawrence Bragg, and New Zealand's Ernest Rutherford, whose 1911 small central nucleus Rutherford model of the atom had challenged Thomson's 1904 plum pudding model. Bohr received an invitation from Rutherford to conduct post-doctoral work at Victoria University of Manchester, where Bohr met George de Hevesy and Charles Galton Darwin (whom Bohr referred to as "the grandson of the real Darwin").

Bohr returned to Denmark in July 1912 for his wedding, and travelled around England and Scotland on his honeymoon. On his return, he became a privatdocent at the University of Copenhagen, giving lectures on thermodynamics. Martin Knudsen put Bohr's name forward for a docent, which was approved in July 1913, and Bohr then began teaching medical students. His three papers, which later became famous as "the trilogy", were published in Philosophical Magazine in July, September and November of that year. He adapted Rutherford's nuclear structure to Max Planck's quantum theory and so created his Bohr model of the atom.

Planetary models of atoms were not new, but Bohr's treatment was. Taking the 1912 paper by Darwin on the role of electrons in the interaction of alpha particles with a nucleus as his starting point, he advanced the theory of electrons travelling in orbits of quantized "stationary states" around the atom's nucleus in order to stabilize the atom, but it wasn't until his 1921 paper that he showed that the chemical properties of each element were largely determined by the number of electrons in the outer orbits of its atoms. He introduced the idea that an electron could drop from a higher-energy orbit to a lower one, in the process emitting a quantum of discrete energy. This became a basis for what is now known as the old quantum theory.

The Bohr model of the hydrogen atom. A negatively charged electron, confined to an atomic orbital, orbits a small, positively charged nucleus; a quantum jump between orbits is accompanied by an emitted or absorbed amount of electromagnetic radiation.

The evolution of atomic models in the 20th century: Thomson, Rutherford, Bohr, Heisenberg/Schrödinger

In 1885, Johann Balmer had come up with his Balmer series to describe the visible spectral lines of a hydrogen atom:

${\displaystyle \frac{1}{\lambda }=R_{\mathrm{H}}\left(\frac{1}{2^2}-\frac{1}{n^2}\right)\text{for}n=3,4,5,...}$

where λ is the wavelength of the absorbed or emitted light and R_H is the Rydberg constant. Balmer's formula was corroborated by the discovery of additional spectral lines, but for thirty years, no one could explain why it worked. In the first paper of his trilogy, Bohr was able to derive it from his model:

${\displaystyle R_Z=\frac{2{\pi }^2{m}_e{Z}^2{e}^4}{h^3}}$

where m_e is the electron's mass, e is its charge, h is Planck's constant and Z is the atom's atomic number (1 for hydrogen).

The model's first hurdle was the Pickering series, lines which did not fit Balmer's formula. When challenged on this by Alfred Fowler, Bohr replied that they were caused by ionised helium, helium atoms with only one electron. The Bohr model was found to work for such ions. Many older physicists, like Thomson, Rayleigh and Hendrik Lorentz, did not like the trilogy, but the younger generation, including Rutherford, David Hilbert, Albert Einstein, Enrico Fermi, Max Born and Arnold Sommerfeld saw it as a breakthrough. The trilogy's acceptance was entirely due to its ability to explain phenomena which stymied other models, and to predict results that were subsequently verified by experiments. Today, the Bohr model of the atom has been superseded, but is still the best known model of the atom, as it often appears in high school physics and chemistry texts.

Bohr did not enjoy teaching medical students. He later admitted that he was not a good lecturer, because he needed a balance between clarity and truth, between "Klarheit und Wahrheit". He decided to return to Manchester, where Rutherford had offered him a job as a reader in place of Darwin, whose tenure had expired. Bohr accepted. He took a leave of absence from the University of Copenhagen, which he started by taking a holiday in Tyrol with his brother Harald and aunt Hanna Adler. There, he visited the University of Göttingen and the Ludwig Maximilian University of Munich, where he met Sommerfeld and conducted seminars on the trilogy. The First World War broke out while they were in Tyrol, greatly complicating the trip back to Denmark and Bohr's subsequent voyage with Margrethe to England, where he arrived in October 1914. They stayed until July 1916, by which time he had been appointed to the Chair of Theoretical Physics at the University of Copenhagen, a position created especially for him. His docentship was abolished at the same time, so he still had to teach physics to medical students. New professors were formally introduced to King Christian X, who expressed his delight at meeting such a famous football player.

Institute of Physics

In April 1917, Bohr began a campaign to establish an Institute of Theoretical Physics. He gained the support of the Danish government and the Carlsberg Foundation, and sizeable contributions were also made by industry and private donors, many of them Jewish. Legislation establishing the institute was passed in November 1918. Now known as the Niels Bohr Institute, it opened on 3 March 1921, with Bohr as its director. His family moved into an apartment on the first floor. Bohr's institute served as a focal point for researchers into quantum mechanics and related subjects in the 1920s and 1930s, when most of the world's best-known theoretical physicists spent some time in his company. Early arrivals included Hans Kramers from the Netherlands, Oskar Klein from Sweden, George de Hevesy from Hungary, Wojciech Rubinowicz from Poland, and Svein Rosseland from Norway. Bohr became widely appreciated as their congenial host and eminent colleague. Klein and Rosseland produced the institute's first publication even before it opened.

The Niels Bohr Institute, part of the University of Copenhagen

The Bohr model worked well for hydrogen and ionized single-electron helium which impressed Einstein but could not explain more complex elements. By 1919, Bohr was moving away from the idea that electrons orbited the nucleus and developed heuristics to describe them. The rare-earth elements posed a particular classification problem for chemists because they were so chemically similar. An important development came in 1924 with Wolfgang Pauli's discovery of the Pauli exclusion principle, which put Bohr's models on a firm theoretical footing. Bohr was then able to declare that the as-yet-undiscovered element 72 was not a rare-earth element but an element with chemical properties similar to those of zirconium. (Elements had been predicted and discovered since 1871 by chemical properties), and Bohr was immediately challenged by the French chemist Georges Urbain, who claimed to have discovered a rare-earth element 72, which he called "celtium." At the Institute in Copenhagen, Dirk Coster and George de Hevesy took up the challenge of proving Bohr right and Urbain wrong. Starting with a clear idea of the chemical properties of the unknown element greatly simplified the search process. They went through samples from Copenhagen's Museum of Mineralogy looking for a zirconium-like element and soon found it. The element, which they named hafnium (hafnia being the Latin name for Copenhagen), turned out to be more common than gold.

In 1922, Bohr was awarded the Nobel Prize in Physics "for his services in the investigation of the structure of atoms and of the radiation emanating from them." The award thus recognized both the trilogy and his early leading work in the emerging field of quantum mechanics. For his Nobel lecture, Bohr gave his audience a comprehensive survey of what was then known about the structure of the atom, including the correspondence principle, which he had formulated. This states that the behavior of systems described by quantum theory reproduces classical physics in the limit of large quantum numbers.

The discovery of Compton scattering by Arthur Holly Compton in 1923 convinced most physicists that light was composed of photons and that energy and momentum were conserved in collisions between electrons and photons. In 1924, Bohr, Kramers, and John C. Slater, an American physicist working at the Institute in Copenhagen, proposed the Bohr–Kramers–Slater theory (BKS). It was more of a program than a full physical theory, as the ideas it developed were not worked out quantitatively. The BKS theory became the final attempt at understanding the interaction of matter and electromagnetic radiation on the basis of the old quantum theory, in which quantum phenomena were treated by imposing quantum restrictions on a classical wave description of the electromagnetic field.

Modelling atomic behaviour under incident electromagnetic radiation using "virtual oscillators" at the absorption and emission frequencies, rather than the (different) apparent frequencies of the Bohr orbits, led Max Born, Werner Heisenberg and Kramers to explore different mathematical models. They led to the development of matrix mechanics, the first form of modern quantum mechanics. The BKS theory also generated discussion of, and renewed attention to, difficulties in the foundations of the old quantum theory. The most provocative element of BKS – that momentum and energy would not necessarily be conserved in each interaction, but only statistically – was soon shown to be in conflict with experiments conducted by Walther Bothe and Hans Geiger. In light of these results, Bohr informed Darwin that "there is nothing else to do than to give our revolutionary efforts as honourable a funeral as possible".

Quantum mechanics

The introduction of spin by George Uhlenbeck and Samuel Goudsmit in November 1925 was a milestone. The next month, Bohr travelled to Leiden to attend celebrations of the 50th anniversary of Hendrick Lorentz receiving his doctorate. When his train stopped in Hamburg, he was met by Wolfgang Pauli and Otto Stern, who asked for his opinion of the spin theory. Bohr pointed out that he had concerns about the interaction between electrons and magnetic fields. When he arrived in Leiden, Paul Ehrenfest and Albert Einstein informed Bohr that Einstein had resolved this problem using relativity. Bohr then had Uhlenbeck and Goudsmit incorporate this into their paper. Thus, when he met Werner Heisenberg and Pascual Jordan in Göttingen on the way back, he had become, in his own words, "a prophet of the electron magnet gospel".

1927 Solvay Conference in Brussels, October 1927. Bohr is on the right in the middle row, next to Max Born.

Heisenberg first came to Copenhagen in 1924, then returned to Göttingen in June 1925, shortly thereafter developing the mathematical foundations of quantum mechanics. When he showed his results to Max Born in Göttingen, Born realised that they could best be expressed using matrices. This work attracted the attention of the British physicist Paul Dirac, who came to Copenhagen for six months in September 1926. Austrian physicist Erwin Schrödinger also visited in 1926. His attempt at explaining quantum physics in classical terms using wave mechanics impressed Bohr, who believed it contributed "so much to mathematical clarity and simplicity that it represents a gigantic advance over all previous forms of quantum mechanics".

When Kramers left the institute in 1926 to take up a chair as professor of theoretical physics at the Utrecht University, Bohr arranged for Heisenberg to return and take Kramers's place as a lektor at the University of Copenhagen. Heisenberg worked in Copenhagen as a university lecturer and assistant to Bohr from 1926 to 1927.

Bohr became convinced that light behaved like both waves and particles and, in 1927, experiments confirmed the de Broglie hypothesis that matter (like electrons) also behaved like waves. He conceived the philosophical principle of complementarity: that items could have apparently mutually exclusive properties, such as being a wave or a stream of particles, depending on the experimental framework. He felt that it was not fully understood by professional philosophers.

In February 1927, Heisenberg developed the first version of the uncertainty principle, presenting it using a thought experiment where an electron was observed through a gamma-ray microscope. Bohr was dissatisfied with Heisenberg's argument, since it required only that a measurement disturb properties that already existed, rather than the more radical idea that the electron's properties could not be discussed at all apart from the context they were measured in. In a paper presented at the Volta Conference at Como in September 1927, Bohr emphasized that Heisenberg's uncertainty relations could be derived from classical considerations about the resolving power of optical instruments. Understanding the true meaning of complementarity would, Bohr believed, require "closer investigation". Einstein preferred the determinism of classical physics over the probabilistic new quantum physics to which he himself had contributed. Philosophical issues that arose from the novel aspects of quantum mechanics became widely celebrated subjects of discussion. Einstein and Bohr had good-natured arguments over such issues throughout their lives.

In 1914 Carl Jacobsen, the heir to Carlsberg breweries, bequeathed his mansion (the Carlsberg Honorary Residence, currently known as Carlsberg Academy) to be used for life by the Dane who had made the most prominent contribution to science, literature or the arts, as an honorary residence (Danish: Æresbolig). Harald Høffding had been the first occupant, and upon his death in July 1931, the Royal Danish Academy of Sciences and Letters gave Bohr occupancy. He and his family moved there in 1932. He was elected president of the Academy on 17 March 1939.

By 1929 the phenomenon of beta decay prompted Bohr to again suggest that the law of conservation of energy be abandoned, but Enrico Fermi's hypothetical neutrino and the subsequent 1932 discovery of the neutron provided another explanation. This prompted Bohr to create a new theory of the compound nucleus in 1936, which explained how neutrons could be captured by the nucleus. In this model, the nucleus could be deformed like a drop of liquid. He worked on this with a new collaborator, the Danish physicist Fritz Kalckar, who died suddenly in 1938.

The discovery of nuclear fission by Otto Hahn in December 1938 (and its theoretical explanation by Lise Meitner) generated intense interest among physicists. Bohr brought the news to the United States where he opened the Fifth Washington Conference on Theoretical Physics with Fermi on 26 January 1939. When Bohr told George Placzek that this resolved all the mysteries of transuranic elements, Placzek told him that one remained: the neutron capture energies of uranium did not match those of its decay. Bohr thought about it for a few minutes and then announced to Placzek, Léon Rosenfeld and John Wheeler that "I have understood everything." Based on his liquid drop model of the nucleus, Bohr concluded that it was the uranium-235 isotope and not the more abundant uranium-238 that was primarily responsible for fission with thermal neutrons. In April 1940, John R. Dunning demonstrated that Bohr was correct. In the meantime, Bohr and Wheeler developed a theoretical treatment which they published in a September 1939 paper on "The Mechanism of Nuclear Fission".

Philosophy

Heisenberg said of Bohr that he was "primarily a philosopher, not a physicist". Bohr read the 19th-century Danish Christian existentialist philosopher Søren Kierkegaard. Richard Rhodes argued in The Making of the Atomic Bomb that Bohr was influenced by Kierkegaard through Høffding. In 1909, Bohr sent his brother Kierkegaard's Stages on Life's Way as a birthday gift. In the enclosed letter, Bohr wrote, "It is the only thing I have to send home; but I do not believe that it would be very easy to find anything better ... I even think it is one of the most delightful things I have ever read." Bohr enjoyed Kierkegaard's language and literary style, but mentioned that he had some disagreement with Kierkegaard's philosophy. Some of Bohr's biographers suggested that this disagreement stemmed from Kierkegaard's advocacy of Christianity, while Bohr was an atheist.

There has been some dispute over the extent to which Kierkegaard influenced Bohr's philosophy and science. David Favrholdt argued that Kierkegaard had minimal influence over Bohr's work, taking Bohr's statement about disagreeing with Kierkegaard at face value, while Jan Faye argued that one can disagree with the content of a theory while accepting its general premises and structure.

Quantum physics

Bohr (left) and Albert Einstein (right), pictured on 11 December 1925, had a long-running debate about the metaphysical implication of quantum physics.

There has been much subsequent debate and discussion about Bohr's views and philosophy of quantum mechanics. Regarding his ontological interpretation of the quantum world, Bohr has been seen as an anti-realist, an instrumentalist, a phenomenological realist or some other kind of realist. Furthermore, though some have seen Bohr as being a subjectivist or a positivist, most philosophers agree that this is a misunderstanding of Bohr as he never argued for verificationism or for the idea that the subject had a direct impact on the outcome of a measurement.

Bohr has often been quoted saying that there is "no quantum world" but only an "abstract quantum physical description". This was not publicly said by Bohr, but rather a private statement attributed to Bohr by Aage Petersen in a reminiscence after his death. N. David Mermin recalled Victor Weisskopf declaring that Bohr wouldn't have said anything of the sort and exclaiming, "Shame on Aage Petersen for putting those ridiculous words in Bohr's mouth!"

Numerous scholars have argued that the philosophy of Immanuel Kant had a strong influence on Bohr. Like Kant, Bohr thought distinguishing between the subject's experience and the object was an important condition for attaining knowledge. This can only be done through the use of causal and spatial-temporal concepts to describe the subject's experience. Thus, according to Jan Faye, Bohr thought that it is because of "classical" concepts like "space", "position", "time," "causation", and "momentum" that one can talk about objects and their objective existence. Bohr held that basic concepts like "time" are built in to our ordinary language and that the concepts of classical physics are merely a refinement of them. Therefore, for Bohr, classical concepts need to be used to describe experiments that deal with the quantum world. Bohr writes:

[T]he account of all evidence must be expressed in classical terms. The argument is simply that by the word 'experiment' we refer to a situation where we can tell to others what we have done and what we have learned and that, therefore, the account of the experimental arrangement and of the results of the observations must be expressed in unambiguous language with suitable application of the terminology of classical physics (APHK, p. 39).

According to Faye, there are various explanations for why Bohr believed that classical concepts were necessary for describing quantum phenomena. Faye groups explanations into five frameworks: empiricism (i.e. logical positivism); Kantianism (or Neo-Kantian models of epistemology); Pragmatism (which focus on how human beings experientially interact with atomic systems according to their needs and interests); Darwinianism (i.e. we are adapted to use classical type concepts, which Léon Rosenfeld said that we evolved to use); and Experimentalism (which focuses strictly on the function and outcome of experiments which thus must be described classically). These explanations are not mutually exclusive, and at times Bohr seems to emphasize some of these aspects while at other times he focuses on other elements.

According to Faye "Bohr thought of the atom as real. Atoms are neither heuristic nor logical constructions." However, according to Faye, he did not believe "that the quantum mechanical formalism was true in the sense that it gave us a literal ('pictorial') rather than a symbolic representation of the quantum world." Therefore, Bohr's theory of complementarity "is first and foremost a semantic and epistemological reading of quantum mechanics that carries certain ontological implications." As Faye explains, Bohr's indefinability thesis is that

[T]he truth conditions of sentences ascribing a certain kinematic or dynamic value to an atomic object are dependent on the apparatus involved, in such a way that these truth conditions have to include reference to the experimental setup as well as the actual outcome of the experiment.

Faye notes that Bohr's interpretation makes no reference to a "collapse of the wave function during measurements" (and indeed, he never mentioned this idea). Instead, Bohr "accepted the Born statistical interpretation because he believed that the ψ-function has only a symbolic meaning and does not represent anything real." Since for Bohr, the ψ-function is not a literal pictorial representation of reality, there can be no real collapse of the wavefunction.

A much debated point in recent literature is what Bohr believed about atoms and their reality and whether they are something else than what they seem to be. Some like Henry Folse argue that Bohr saw a distinction between observed phenomena and a transcendental reality. Jan Faye disagrees with this position and holds that for Bohr, the quantum formalism and complementarity was the only thing we could say about the quantum world and that "there is no further evidence in Bohr's writings indicating that Bohr would attribute intrinsic and measurement-independent state properties to atomic objects [...] in addition to the classical ones being manifested in measurement."

Second World War

Assistance to refugee scholars

The rise of Nazism in Germany prompted many scholars to flee their countries, either because they were Jewish or because they were political opponents of the Nazi regime. In 1933, the Rockefeller Foundation created a fund to help support refugee academics, and Bohr discussed this programme with the President of the Rockefeller Foundation, Max Mason, in May 1933 during a visit to the United States. Bohr offered the refugees temporary jobs at the institute, provided them with financial support, arranged for them to be awarded fellowships from the Rockefeller Foundation, and ultimately found them places at institutions around the world. Those that he helped included Guido Beck, Felix Bloch, James Franck, George de Hevesy, Otto Frisch, Hilde Levi, Lise Meitner, George Placzek, Eugene Rabinowitch, Stefan Rozental, Erich Ernst Schneider, Edward Teller, Arthur von Hippel and Victor Weisskopf.

In April 1940, early in the Second World War, Nazi Germany invaded and occupied Denmark. To prevent the Germans from discovering Max von Laue's and James Franck's gold Nobel medals, Bohr had de Hevesy dissolve them in aqua regia. In this form, they were stored on a shelf at the Institute until after the war, when the gold was precipitated and the medals re-struck by the Nobel Foundation. Bohr's own medal had been donated to an auction to the Finnish Relief Fund, and was auctioned off in March 1940, along with the medal of August Krogh. The buyer later donated the two medals to the Danish Historical Museum in Frederiksborg Castle, where they are still kept, although Bohr's medal temporarily went to space with Andreas Mogensen on ISS Expedition 70 in 2023-2024.

Bohr kept the Institute running, but all the foreign scholars departed.

Meeting with Heisenberg

Werner Heisenberg (left) with Bohr at the Copenhagen Conference in 1934

Bohr was aware of the possibility of using uranium-235 to construct an atomic bomb, referring to it in lectures in Britain and Denmark shortly before and after the war started, but he did not believe that it was technically feasible to extract a sufficient quantity of uranium-235. In September 1941, Heisenberg, who had become head of the German nuclear energy project, visited Bohr in Copenhagen. During this meeting the two men took a private moment outside, the content of which has caused much speculation, as both gave differing accounts. According to Heisenberg, he began to address nuclear energy, morality and the war, to which Bohr seems to have reacted by terminating the conversation abruptly while not giving Heisenberg hints about his own opinions. Ivan Supek, one of Heisenberg's students and friends, claimed that the main subject of the meeting was Carl Friedrich von Weizsäcker, who had proposed trying to persuade Bohr to mediate peace between Britain and Germany.

In 1957, Heisenberg wrote to Robert Jungk, who was then working on the book Brighter than a Thousand Suns: A Personal History of the Atomic Scientists. Heisenberg explained that he had visited Copenhagen to communicate to Bohr the views of several German scientists, that production of a nuclear weapon was possible with great efforts, and this raised enormous responsibilities on the world's scientists on both sides. When Bohr saw Jungk's depiction in the Danish translation of the book, he drafted (but never sent) a letter to Heisenberg, stating that he deeply disagreed with Heisenberg's account of the meeting, that he recalled Heisenberg's visit as being to encourage cooperation with the inevitably victorious Nazis  and that he was shocked that Germany was pursuing nuclear weapons under Heisenberg's leadership.

Michael Frayn's 1998 play Copenhagen explores what might have happened at the 1941 meeting between Heisenberg and Bohr. A television film version of the play by the BBC was first screened on 26 September 2002, with Stephen Rea as Bohr. With the subsequent release of Bohr's letters, the play has been criticised by historians as being a "grotesque oversimplification and perversion of the actual moral balance" due to adopting a pro-Heisenberg perspective.

The same meeting had previously been dramatised by the BBC's Horizon science documentary series in 1992, with Anthony Bate as Bohr, and Philip Anthony as Heisenberg. The meeting is also dramatized in the Norwegian/Danish/British miniseries The Heavy Water War.

Manhattan Project

In September 1943, word reached Bohr and his brother Harald that the Nazis considered their family to be Jewish, since their mother was Jewish, and that they were therefore in danger of being arrested. The Danish resistance helped Bohr and his wife escape by sea to Sweden on 29 September. The next day, Bohr persuaded King Gustaf V of Sweden to make public Sweden's willingness to provide asylum to Jewish refugees. On 2 October 1943, Swedish radio broadcast that Sweden was ready to offer asylum, and the mass rescue of the Danish Jews by their countrymen followed swiftly thereafter. Some historians claim that Bohr's actions led directly to the mass rescue, while others say that, though Bohr did all that he could for his countrymen, his actions were not a decisive influence on the wider events. Eventually, over 7,000 Danish Jews escaped to Sweden.

Bohr with James Franck, Albert Einstein and Isidor Isaac Rabi (LR)

When the news of Bohr's escape reached Britain, Lord Cherwell sent a telegram to Bohr asking him to come to Britain. Bohr arrived in Scotland on 6 October in a de Havilland Mosquito operated by the British Overseas Airways Corporation (BOAC).  The Mosquitos were unarmed high-speed bomber aircraft that had been converted to carry small, valuable cargoes or important passengers. By flying at high speed and high altitude, they could cross German-occupied Norway, and yet avoid German fighters. Bohr, equipped with parachute, flying suit and oxygen mask, spent the three-hour flight lying on a mattress in the aircraft's bomb bay. During the flight, Bohr did not wear his flying helmet as it was too small, and consequently did not hear the pilot's intercom instruction to turn on his oxygen supply when the aircraft climbed to high altitude to overfly Norway. He passed out from oxygen starvation and only revived when the aircraft descended to lower altitude over the North Sea. Bohr's son Aage followed his father to Britain on another flight a week later, and became his personal assistant.

Bohr was warmly received by James Chadwick and Sir John Anderson, but for security reasons Bohr was kept out of sight. He was given an apartment at St James's Palace and an office with the British Tube Alloys nuclear weapons development team. Bohr was astonished at the amount of progress that had been made. Chadwick arranged for Bohr to visit the United States as a Tube Alloys consultant, with Aage as his assistant. On 8 December 1943, Bohr arrived in Washington, D.C., where he met with the director of the Manhattan Project, Brigadier General Leslie R. Groves Jr. He visited Einstein and Pauli at the Institute for Advanced Study in Princeton, New Jersey, and went to Los Alamos in New Mexico, where the nuclear weapons were being designed. For security reasons, he went under the name of "Nicholas Baker" in the United States, while Aage became "James Baker." In May 1944 the Danish resistance newspaper De frie Danske reported that they had learned that 'the famous son of Denmark Professor Niels Bohr' in October the previous year had fled his country via Sweden to London and from there travelled to Moscow from where he could be assumed to support the war effort.

Bohr did not remain at Los Alamos, but paid a series of extended visits over the course of the next two years. Robert Oppenheimer credited Bohr with acting "as a scientific father figure to the younger men", most notably Richard Feynman. Bohr is quoted as saying, "They didn't need my help in making the atom bomb." Oppenheimer gave Bohr credit for an important contribution to the work on modulated neutron initiators. "This device remained a stubborn puzzle," Oppenheimer noted, "but in early February 1945 Niels Bohr clarified what had to be done."

Bohr recognised early that nuclear weapons would change international relations. In April 1944, he received a letter from Peter Kapitza, written some months before when Bohr was in Sweden, inviting him to come to the Soviet Union. The letter convinced Bohr that the Soviets were aware of the Anglo-American project, and would strive to catch up. He sent Kapitza a non-committal response, which he showed to the authorities in Britain before posting. Bohr met Churchill on 16 May 1944, but found that "we did not speak the same language". Churchill disagreed with the idea of openness towards the Russians to the point that he wrote in a letter: "It seems to me Bohr ought to be confined or at any rate made to see that he is very near the edge of mortal crimes."

Oppenheimer suggested that Bohr visit President Franklin D. Roosevelt to convince him that the Manhattan Project should be shared with the Soviets in the hope of speeding up its results. Bohr's friend, Supreme Court Justice Felix Frankfurter, informed President Roosevelt about Bohr's opinions, and a meeting between them took place on 26 August 1944. Roosevelt suggested that Bohr return to the United Kingdom to try to win British approval. When Churchill and Roosevelt met at Hyde Park on 19 September 1944, they rejected the idea of informing the world about the project, and the aide-mémoire of their conversation contained a rider that "enquiries should be made regarding the activities of Professor Bohr and steps taken to ensure that he is responsible for no leakage of information, particularly to the Russians".

In June 1950, Bohr addressed an "Open Letter" to the United Nations calling for international cooperation on nuclear energy. In the 1950s, after the Soviet Union's first nuclear weapon test, the International Atomic Energy Agency was created along the lines of Bohr's suggestion. In 1957 he received the first ever Atoms for Peace Award.

Later years

Bohr's coat of arms, 1947. Argent, a taijitu (yin-yang symbol) Gules and Sable. Motto: Contraria sunt complementa ("opposites are complementary").

Following the ending of the war, Bohr returned to Copenhagen on 25 August 1945, and was re-elected President of the Royal Danish Academy of Arts and Sciences on 21 September. At a memorial meeting of the Academy on 17 October 1947 for King Christian X, who had died in April, the new king, Frederik IX, announced that he was conferring the Order of the Elephant on Bohr. This award was normally awarded only to royalty and heads of state, but the king said that it honoured not just Bohr personally, but Danish science. Bohr designed his own coat of arms which featured a taijitu (symbol of yin and yang) and a motto in Latin: contraria sunt complementa, "opposites are complementary".

The Second World War demonstrated that science, and physics in particular, now required considerable financial and material resources. To avoid a brain drain to the United States, twelve European countries banded together to create CERN, a research organisation along the lines of the national laboratories in the United States, designed to undertake Big Science projects beyond the resources of any one of them alone. Questions soon arose regarding the best location for the facilities. Bohr and Kramers felt that the Institute in Copenhagen would be the ideal site. Pierre Auger, who organised the preliminary discussions, disagreed; he felt that both Bohr and his Institute were past their prime, and that Bohr's presence would overshadow others. After a long debate, Bohr pledged his support to CERN in February 1952, and Geneva was chosen as the site in October. The CERN Theory Group was based in Copenhagen until their new accommodation in Geneva was ready in 1957. Victor Weisskopf, who later became the Director General of CERN, summed up Bohr's role, saying that "there were other personalities who started and conceived the idea of CERN. The enthusiasm and ideas of the other people would not have been enough, however, if a man of his stature had not supported it."

Meanwhile, Scandinavian countries formed the Nordic Institute for Theoretical Physics in 1957, with Bohr as its chairman. He was also involved with the founding of the Research Establishment Risø of the Danish Atomic Energy Commission, and served as its first chairman from February 1956.^[156]

Bohr died of heart failure at his home in Carlsberg on 18 November 1962. He was cremated, and his ashes were buried in the family plot in the Assistens Cemetery in the Nørrebro section of Copenhagen, along with those of his parents, his brother Harald, and his son Christian. Years later, his wife's ashes were also interred there. On 7 October 1965, on what would have been his 80th birthday, the Institute for Theoretical Physics at the University of Copenhagen was officially renamed to what it had been called unofficially for many years: the Niels Bohr Institute.

Accolades

See also: List of things named after Niels Bohr

 

Bohr received numerous honours and accolades. In addition to the Nobel Prize, he received the Hughes Medal in 1921, the Matteucci Medal in 1923, the Franklin Medal in 1926, the Copley Medal in 1938, the Order of the Elephant in 1947, the Atoms for Peace Award in 1957 and the Sonning Prize in 1961. He became foreign member of the Finnish Society of Sciences an Letters in 1922, and of the Royal Netherlands Academy of Arts and Sciences in 1923, an international member of the United States National Academy of Sciences in 1925, a member of the Royal Society in 1926, an international member of the American Philosophical Society in 1940, and an international honorary member of the American Academy of Arts and Sciences in 1945. The Bohr model's semicentennial was commemorated in Denmark on 21 November 1963 with a postage stamp depicting Bohr, the hydrogen atom and the formula for the difference of any two hydrogen energy levels: ${\displaystyle h\nu ={ϵ}_2-{ϵ}_1}$. Several other countries have also issued postage stamps depicting Bohr. In 1997, the Danish National Bank began circulating the 500-krone banknote with the portrait of Bohr smoking a pipe. On 7 October 2012, in celebration of Niels Bohr's 127th birthday, a Google Doodle depicting the Bohr model of the hydrogen atom appeared on Google's home page. An asteroid, 3948 Bohr, was named after him, as was the Bohr lunar crater and bohrium, the chemical element with atomic number 107.