Bertrand Russell

British logician and philosopher
Also known as: Bertrand Arthur William Russell, 3rd Earl Russell of Kingston Russell, Viscount Amberley of Amberley and of Ardsalla
Quick Facts
In full:
Bertrand Arthur William Russell, 3rd Earl Russell of Kingston Russell, Viscount Amberley of Amberley and of Ardsalla
Born:
May 18, 1872, Trelleck, Monmouthshire, Wales
Died:
February 2, 1970, Penrhyndeudraeth, Merioneth (aged 97)
Awards And Honors:
Nobel Prize (1950)
Notable Works:
“Principia Mathematica”
On the Web:
Humanists UK - Bertrand Russell (Dec. 21, 2024)
Top Questions

What was Bertrand Russell’s childhood like?

Where was Bertrand Russell educated?

What did Bertrand Russell write?

Why is Bertrand Russell significant?

Bertrand Russell (born May 18, 1872, Trelleck, Monmouthshire, Wales—died February 2, 1970, Penrhyndeudraeth, Merioneth) was a British philosopher, logician, and social reformer, a founding figure in the analytic movement in Anglo-American philosophy, and recipient of the Nobel Prize for Literature in 1950. Russell’s contributions to logic, epistemology, and the philosophy of mathematics established him as one of the foremost philosophers of the 20th century. To the general public, however, he was best known as a campaigner for peace and as a popular writer on social, political, and moral subjects. During a long, productive, and often turbulent life, he published more than 70 books and about 2,000 articles, married four times, became involved in innumerable public controversies, and was honoured and reviled in almost equal measure throughout the world. Russell’s article on the philosophical consequences of relativity appeared in the 13th edition of the Encyclopædia Britannica.

Russell was born in Ravenscroft, the country home of his parents, Lord and Lady Amberley. His grandfather, Lord John Russell, was the youngest son of the 6th Duke of Bedford. In 1861, after a long and distinguished political career in which he served twice as prime minister, Lord Russell was ennobled by Queen Victoria, becoming the 1st Earl Russell. Bertrand Russell became the 3rd Earl Russell in 1931, after his elder brother, Frank, died childless.

Russell’s early life was marred by tragedy and bereavement. By the time he was age six, his sister, Rachel, his parents, and his grandfather had all died, and he and Frank were left in the care of their grandmother, Countess Russell. Though Frank was sent to Winchester School, Bertrand was educated privately at home, and his childhood, to his later great regret, was spent largely in isolation from other children. Intellectually precocious, he became absorbed in mathematics from an early age and found the experience of learning Euclidean geometry at the age of 11 “as dazzling as first love,” because it introduced him to the intoxicating possibility of certain, demonstrable knowledge. This led him to imagine that all knowledge might be provided with such secure foundations, a hope that lay at the very heart of his motivations as a philosopher. His earliest philosophical work was written during his adolescence and records the skeptical doubts that led him to abandon the Christian faith in which he had been brought up by his grandmother.

Equations written on blackboard
Britannica Quiz
Numbers and Mathematics

In 1890 Russell’s isolation came to an end when he entered Trinity College, University of Cambridge, to study mathematics. There he made lifelong friends through his membership in the famously secretive student society the Apostles, whose members included some of the most influential philosophers of the day. Inspired by his discussions with this group, Russell abandoned mathematics for philosophy and won a fellowship at Trinity on the strength of a thesis entitled An Essay on the Foundations of Geometry, a revised version of which was published as his first philosophical book in 1897. Following Kant’s Critique of Pure Reason (1781, 1787), this work presented a sophisticated idealist theory that viewed geometry as a description of the structure of spatial intuition.

In 1896 Russell published his first political work, German Social Democracy. Though sympathetic to the reformist aims of the German socialist movement, it included some trenchant and farsighted criticisms of Marxist dogmas. The book was written partly as the outcome of a visit to Berlin in 1895 with his first wife, Alys Pearsall Smith, whom he had married the previous year. In Berlin, Russell formulated an ambitious scheme of writing two series of books, one on the philosophy of the sciences, the other on social and political questions. “At last,” as he later put it, “I would achieve a Hegelian synthesis in an encyclopaedic work dealing equally with theory and practice.” He did, in fact, come to write on all the subjects he intended, but not in the form that he envisaged. Shortly after finishing his book on geometry, he abandoned the metaphysical idealism that was to have provided the framework for this grand synthesis.

Russell’s abandonment of idealism is customarily attributed to the influence of his friend and fellow Apostle G.E. Moore. A much greater influence on his thought at this time, however, was a group of German mathematicians that included Karl Weierstrass, Georg Cantor, and Richard Dedekind, whose work was aimed at providing mathematics with a set of logically rigorous foundations. For Russell, their success in this endeavour was of enormous philosophical as well as mathematical significance; indeed, he described it as “the greatest triumph of which our age has to boast.” After becoming acquainted with this body of work, Russell abandoned all vestiges of his earlier idealism and adopted the view, which he was to hold for the rest of his life, that analysis rather than synthesis was the surest method of philosophy and that therefore all the grand system building of previous philosophers was misconceived. In arguing for this view with passion and acuity, Russell exerted a profound influence on the entire tradition of English-speaking analytic philosophy, bequeathing to it its characteristic style, method, and tone.

Inspired by the work of the mathematicians whom he so greatly admired, Russell conceived the idea of demonstrating that mathematics not only had logically rigorous foundations but also that it was in its entirety nothing but logic. The philosophical case for this point of view—subsequently known as logicism—was stated at length in The Principles of Mathematics (1903). There Russell argued that the whole of mathematics could be derived from a few simple axioms that made no use of specifically mathematical notions, such as number and square root, but were rather confined to purely logical notions, such as proposition and class. In this way not only could the truths of mathematics be shown to be immune from doubt, they could also be freed from any taint of subjectivity, such as the subjectivity involved in Russell’s earlier Kantian view that geometry describes the structure of spatial intuition. Near the end of his work on The Principles of Mathematics, Russell discovered that he had been anticipated in his logicist philosophy of mathematics by the German mathematician Gottlob Frege, whose book The Foundations of Arithmetic (1884) contained, as Russell put it, “many things…which I believed I had invented.” Russell quickly added an appendix to his book that discussed Frege’s work, acknowledged Frege’s earlier discoveries, and explained the differences in their respective understandings of the nature of logic.

Get Unlimited Access
Try Britannica Premium for free and discover more.

The tragedy of Russell’s intellectual life is that the deeper he thought about logic, the more his exalted conception of its significance came under threat. He himself described his philosophical development after The Principles of Mathematics as a “retreat from Pythagoras.” The first step in this retreat was his discovery of a contradiction—now known as Russell’s Paradox—at the very heart of the system of logic upon which he had hoped to build the whole of mathematics. The contradiction arises from the following considerations: Some classes are members of themselves (e.g., the class of all classes), and some are not (e.g., the class of all men), so we ought to be able to construct the class of all classes that are not members of themselves. But now, if we ask of this class “Is it a member of itself?” we become enmeshed in a contradiction. If it is, then it is not, and if it is not, then it is. This is rather like defining the village barber as “the man who shaves all those who do not shave themselves” and then asking whether the barber shaves himself or not.

At first this paradox seemed trivial, but the more Russell reflected upon it, the deeper the problem seemed, and eventually he was persuaded that there was something fundamentally wrong with the notion of class as he had understood it in The Principles of Mathematics. Frege saw the depth of the problem immediately. When Russell wrote to him to tell him of the paradox, Frege replied, “arithmetic totters.” The foundation upon which Frege and Russell had hoped to build mathematics had, it seemed, collapsed. Whereas Frege sank into a deep depression, Russell set about repairing the damage by attempting to construct a theory of logic immune to the paradox. Like a malignant cancerous growth, however, the contradiction reappeared in different guises whenever Russell thought that he had eliminated it.

Eventually, Russell’s attempts to overcome the paradox resulted in a complete transformation of his scheme of logic, as he added one refinement after another to the basic theory. In the process, important elements of his “Pythagorean” view of logic were abandoned. In particular, Russell came to the conclusion that there were no such things as classes and propositions and that therefore, whatever logic was, it was not the study of them. In their place he substituted a bewilderingly complex theory known as the ramified theory of types, which, though it successfully avoided contradictions such as Russell’s Paradox, was (and remains) extraordinarily difficult to understand. By the time he and his collaborator, Alfred North Whitehead, had finished the three volumes of Principia Mathematica (1910–13), the theory of types and other innovations to the basic logical system had made it unmanageably complicated. Very few people, whether philosophers or mathematicians, have made the gargantuan effort required to master the details of this monumental work. It is nevertheless rightly regarded as one of the great intellectual achievements of the 20th century.

Principia Mathematica is a herculean attempt to demonstrate mathematically what The Principles of Mathematics had argued for philosophically, namely that mathematics is a branch of logic. The validity of the individual formal proofs that make up the bulk of its three volumes has gone largely unchallenged, but the philosophical significance of the work as a whole is still a matter of debate. Does it demonstrate that mathematics is logic? Only if one regards the theory of types as a logical truth, and about that there is much more room for doubt than there was about the trivial truisms upon which Russell had originally intended to build mathematics. Moreover, Kurt Gödel’s first incompleteness theorem (1931) proves that there cannot be a single logical theory from which the whole of mathematics is derivable: all consistent theories of arithmetic are necessarily incomplete. Principia Mathematica cannot, however, be dismissed as nothing more than a heroic failure. Its influence on the development of mathematical logic and the philosophy of mathematics has been immense.

Despite their differences, Russell and Frege were alike in taking an essentially Platonic view of logic. Indeed, the passion with which Russell pursued the project of deriving mathematics from logic owed a great deal to what he would later somewhat scornfully describe as a “kind of mathematical mysticism.” As he put it in his more disillusioned old age, “I disliked the real world and sought refuge in a timeless world, without change or decay or the will-o’-the-wisp of progress.” Russell, like Pythagoras and Plato before him, believed that there existed a realm of truth that, unlike the messy contingencies of the everyday world of sense-experience, was immutable and eternal. This realm was accessible only to reason, and knowledge of it, once attained, was not tentative or corrigible but certain and irrefutable. Logic, for Russell, was the means by which one gained access to this realm, and thus the pursuit of logic was, for him, the highest and noblest enterprise life had to offer.

In philosophy the greatest impact of Principia Mathematica has been through its so-called theory of descriptions. This method of analysis, first introduced by Russell in his article “On Denoting” (1905), translates propositions containing definite descriptions (e.g., “the present king of France”) into expressions that do not—the purpose being to remove the logical awkwardness of appearing to refer to things (such as the present king of France) that do not exist. Originally developed by Russell as part of his efforts to overcome the contradictions in his theory of logic, this method of analysis has since become widely influential even among philosophers with no specific interest in mathematics. The general idea at the root of Russell’s theory of descriptions—that the grammatical structures of ordinary language are distinct from, and often conceal, the true “logical forms” of expressions—has become his most enduring contribution to philosophy.

Russell later said that his mind never fully recovered from the strain of writing Principia Mathematica, and he never again worked on logic with quite the same intensity. In 1918 he wrote Introduction to Mathematical Philosophy, which was intended as a popularization of Principia, but, apart from this, his philosophical work tended to be on epistemology rather than logic. In 1914, in Our Knowledge of the External World, Russell argued that the world is “constructed” out of sense-data, an idea that he refined in The Philosophy of Logical Atomism (1918–19). In The Analysis of Mind (1921) and The Analysis of Matter (1927), he abandoned this notion in favour of what he called neutral monism, the view that the “ultimate stuff” of the world is neither mental nor physical but something “neutral” between the two. Although treated with respect, these works had markedly less impact upon subsequent philosophers than his early works in logic and the philosophy of mathematics, and they are generally regarded as inferior by comparison.

Connected with the change in his intellectual direction after the completion of Principia was a profound change in his personal life. Throughout the years that he worked single-mindedly on logic, Russell’s private life was bleak and joyless. He had fallen out of love with his first wife, Alys, though he continued to live with her. In 1911, however, he fell passionately in love with Lady Ottoline Morrell. Doomed from the start (because Morrell had no intention of leaving her husband), this love nevertheless transformed Russell’s entire life. He left Alys and began to hope that he might, after all, find fulfillment in romance. Partly under Morrell’s influence, he also largely lost interest in technical philosophy and began to write in a different, more accessible style. Through writing a best-selling introductory survey called The Problems of Philosophy (1911), Russell discovered that he had a gift for writing on difficult subjects for lay readers, and he began increasingly to address his work to them rather than to the tiny handful of people capable of understanding Principia Mathematica.

In the same year that he began his affair with Morrell, Russell met Ludwig Wittgenstein, a brilliant young Austrian who arrived at Cambridge to study logic with Russell. Fired with intense enthusiasm for the subject, Wittgenstein made great progress, and within a year Russell began to look to him to provide the next big step in philosophy and to defer to him on questions of logic. However, Wittgenstein’s own work, eventually published in 1921 as Logisch-philosophische Abhandlung (Tractatus Logico-Philosophicus, 1922), undermined the entire approach to logic that had inspired Russell’s great contributions to the philosophy of mathematics. It persuaded Russell that there were no “truths” of logic at all, that logic consisted entirely of tautologies, the truth of which was not guaranteed by eternal facts in the Platonic realm of ideas but lay, rather, simply in the nature of language. This was to be the final step in the retreat from Pythagoras and a further incentive for Russell to abandon technical philosophy in favour of other pursuits.

During World War I Russell was for a while a full-time political agitator, campaigning for peace and against conscription. His activities attracted the attention of the British authorities, who regarded him as subversive. He was twice taken to court, the second time to receive a sentence of six months in prison, which he served at the end of the war. In 1916, as a result of his antiwar campaigning, Russell was dismissed from his lectureship at Trinity College. Although Trinity offered to rehire him after the war, he ultimately turned down the offer, preferring instead to pursue a career as a journalist and freelance writer. The war had had a profound effect on Russell’s political views, causing him to abandon his inherited liberalism and to adopt a thorough-going socialism, which he espoused in a series of books including Principles of Social Reconstruction (1916), Roads to Freedom (1918), and The Prospects of Industrial Civilization (1923). He was initially sympathetic to the Russian Revolution of 1917, but a visit to the Soviet Union in 1920 left him with a deep and abiding loathing for Soviet communism, which he expressed in The Practice and Theory of Bolshevism (1920).

In 1921 Russell married his second wife, Dora Black, a young graduate of Girton College, Cambridge, with whom he had two children, John and Kate. In the interwar years Russell and Dora acquired a reputation as leaders of a progressive socialist movement that was stridently anticlerical, openly defiant of conventional sexual morality, and dedicated to educational reform. Russell’s published work during this period consists mainly of journalism and popular books written in support of these causes. Many of these books—such as On Education (1926), Marriage and Morals (1929), and The Conquest of Happiness (1930)—enjoyed large sales and helped establish Russell in the eyes of the general public as a philosopher with important things to say about the moral, political, and social issues of the day. His public lecture “Why I Am Not a Christian,” delivered in 1927 and printed many times, became a popular locus classicus of atheistic rationalism. In 1927 Russell and Dora set up their own school, Beacon Hill, as a pioneering experiment in primary education. To pay for it, Russell undertook a few lucrative but exhausting lecture tours of the United States.

During these years Russell’s second marriage came under increasing strain, partly because of overwork but chiefly because Dora chose to have two children with another man and insisted on raising them alongside John and Kate. In 1932 Russell left Dora for Patricia (“Peter”) Spence, a young University of Oxford undergraduate, and for the next three years his life was dominated by an extraordinarily acrimonious and complicated divorce from Dora, which was finally granted in 1935. In the following year he married Spence, and in 1937 they had a son, Conrad. Worn out by years of frenetic public activity and desiring, at this comparatively late stage in his life (he was then age 66), to return to academic philosophy, Russell gained a teaching post at the University of Chicago. From 1938 to 1944 Russell lived in the United States, where he taught at Chicago and the University of California at Los Angeles, but he was prevented from taking a post at the City College of New York because of objections to his views on sex and marriage. On the brink of financial ruin, he secured a job teaching the history of philosophy at the Barnes Foundation in Philadelphia. Although he soon fell out with its founder, Albert C. Barnes, and lost his job, Russell was able to turn the lectures he delivered at the foundation into a book, A History of Western Philosophy (1945), which proved to be a best-seller and was for many years his main source of income.

In 1944 Russell returned to Trinity College, where he lectured on the ideas that formed his last major contribution to philosophy, Human Knowledge: Its Scope and Limits (1948). During this period Russell, for once in his life, found favour with the authorities, and he received many official tributes, including the Order of Merit in 1949 and the Nobel Prize for Literature in 1950. His private life, however, remained as turbulent as ever, and he left his third wife in 1949. For a while he shared a house in Richmond upon Thames, London, with the family of his son John and, forsaking both philosophy and politics, dedicated himself to writing short stories. Despite his famously immaculate prose style, Russell did not have a talent for writing great fiction, and his short stories were generally greeted with an embarrassed and puzzled silence, even by his admirers.

In 1952 Russell married his fourth wife, Edith Finch, and finally, at the age of 80, found lasting marital harmony. Russell devoted his last years to campaigning against nuclear weapons and the Vietnam War, assuming once again the role of gadfly of the establishment. The sight of Russell in extreme old age taking his place in mass demonstrations and inciting young people to civil disobedience through his passionate rhetoric inspired a new generation of admirers. Their admiration only increased when in 1961 the British judiciary system took the extraordinary step of sentencing the 89-year-old Russell to a second period of imprisonment.

When he died in 1970 Russell was far better known as an antiwar campaigner than as a philosopher of mathematics. In retrospect, however, it is possible to see that it is for his great contributions to philosophy that he will be remembered and honoured by future generations.

Britannica Chatbot logo

Britannica Chatbot

Chatbot answers are created from Britannica articles using AI. This is a beta feature. AI answers may contain errors. Please verify important information in Britannica articles. About Britannica AI.