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Bøker av James Clerk Maxwell

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  • av James Clerk Maxwell & William Davidson Niven
    689,-

  • av James Clerk Maxwell
    233,-

  • av James Clerk Maxwell
    444,-

    Five of Maxwell''s Papers is a classic collection of physics papers by James Clerk Maxwell. Contents:1. On the Unequal Sensibility of the Foramen Centrale to Light of different Colours.2. On the Theory of Compound Colours with reference to Mixtures of Blue and Yellow Light3. On an Instrument to illustrate Poinsot''s Theory of Rotation4. Address to the Mathematical and Physical Sections of the British Association.5. Introductory Lecture on Experimental Physics

  • av James Clerk Maxwell
    859,-

    In 1865 James Clerk Maxwell (1831 - 1879) published this work, "A Dynamical Theory of the Electromagnetic Field" demonstrating that electric and magnetic fields travel through space as waves moving at the speed of light. He proposed that light is an undulation in the same medium that is the cause of electric and magnetic phenomena. The unification of light and electrical phenomena led him to predict the existence of radio waves. Maxwell is also regarded as the founding scientist of the modern field of electrical engineering. His discoveries helped usher in the era of modern physics, laying the foundation for such fields as special relativity and quantum mechanics. Many physicists regard Maxwell as the 19th-century scientist having the greatest influence on 20th-century physics. His contributions to physics are considered by many to be of the same magnitude as the ones of Isaac Newton and Albert Einstein. In this original treatise Maxwell introduces the best of his mind in seven parts, to include: Part i. introductory. Part ii. on electromagnetic induction. Part iii. general equations of the electromagnetic field. Part iv. mechanical actions in the field. Part v. theory of condensers. Part vi. electromagnetic theory of light. Part vii. calculation of the coefficients of electromagnetic induction

  • av James Clerk Maxwell
    456,-

    To those who study the progress of exact science, the common spinning-top is a symbol of the labours and the perplexities of men who had successfully threaded the mazes of the planetary motions. The mathematicians of the last age, searching through nature for problems worthy of their analysis, found in this toy of their youth, ample occupation for their highest mathematical powers.No illustration of astronomical precession can be devised more perfect than that presented by a properly balanced top, but yet the motion of rotation has intricacies far exceeding those of the theory of precession.The top which I have the honour to spin before the Society, differs from that of Mr Elliot in having more adjustments, and in being designed to exhibit far more complicated phenomena.The arrangement of these adjustments, so as to produce the desired effects, depends on the mathematical theory of rotation. The method of exhibiting the motion of the axis of rotation, by means of a coloured disc, is essential to the success of these adjustments. This optical contrivance for rendering visible the nature of the rapid motion of the top, and the practical methods of applying the theory of rotation to such an instrument as the one before us, are the grounds on which I bring my instrument and experiments before the Society as my own.I propose, therefore, in the first place, to give a brief outline of such parts of the theory of rotation as are necessary for the explanation of the phenomena of the top.Lastly, I shall attempt to explain the nature of a possible variation in the earth's axis due to its figure. This variation, if it exists, must cause a periodic inequality in the latitude of every place on the earth's surface, going through its period in about eleven months. The amount of variation must be very small, but its character gives it importance, and the necessary observations are already made, and only require reduction.

  • av James Clerk Maxwell
    560,-

    In 1865 James Clerk Maxwell (1831 - 1879) published this work, "A Dynamical Theory of the Electromagnetic Field" demonstrating that electric and magnetic fields travel through space as waves moving at the speed of light. He proposed that light is an undulation in the same medium that is the cause of electric and magnetic phenomena. The unification of light and electrical phenomena led him to predict the existence of radio waves. Maxwell is also regarded as the founding scientist of the modern field of electrical engineering.His discoveries helped usher in the era of modern physics, laying the foundation for such fields as special relativity and quantum mechanics. Many physicists regard Maxwell as the 19th-century scientist having the greatest influence on 20th-century physics. His contributions to physics are considered by many to be of the same magnitude as the ones of Isaac Newton and Albert Einstein.In this original treatise Maxwell introduces the best of his mind in seven parts, to include:PART I.-INTRODUCTORY.PART II. - ON ELECTROMAGNETIC INDUCTION.PART III. - GENERAL EQUATIONS OF THE ELECTROMAGNETIC FIELD.PART IV.- MECHANICAL ACTIONS IN THE FIELD.PART V. - THEORY OF CONDENSERS.PART VI. - ELECTROMAGNETIC THEORY OF LIGHT.PART VII. - CALCULATION OF THE COEFFICIENTS OF ELECTROMAGNETIC INDUCTION.

  • av Ludwig Boltzmann & James Clerk Maxwell
    337,-

  • - Second Edition
    av James Clerk Maxwell
    409,-

  • av James Clerk Maxwell
    234 - 432,-

  • av James Clerk Maxwell
    449 - 484,-

  • av Ludwig Boltzmann & James Clerk Maxwell
    329,-

  • av James Clerk Maxwell
    556 - 609,-

  • av Ludwig Boltzmann & James Clerk Maxwell
    396,-

  • av Ludwig Boltzmann & James Clerk Maxwell
    369,-

  • av James Clerk Maxwell
    264,-

    WORK IS IN FRENCH This book is a reproduction of a work published before 1920 and is part of a collection of books reprinted and edited by Hachette Livre, in the framework of a partnership with the National Library of France, providing the opportunity to access old and often rare books from the BnF's heritage funds.

  • av James Clerk Maxwell
    273,-

  • av James Clerk Maxwell
    355,-

  • av James Clerk Maxwell
    424,-

  • av James Clerk Maxwell
    355,-

  • av James Clerk Maxwell
    424,-

    James Clerk Maxwell (1831-1879) was one of the most influential physicists of the nineteenth century. This work of 1881, based on his lectures, was intended to complement his Treatise on Electricity and Magnetism (1873), to provide less mathematical students with an understanding of fundamental concepts regarding electricity.

  • av James Clerk Maxwell
    521,-

    Best known for his theory of electromagnetism, James Clerk Maxwell (1831-79) was Cambridge University's first Cavendish Professor of Experimental Physics. Albert Einstein described his work as 'the most profound and the most fruitful that physics has experienced since the time of Newton'. He carried out brilliant work in thermodynamics and statistical mechanics, laying the foundation for the kinetic theory of gases. This book, published originally in 1871, summarises his work in this field. It includes the 'Maxwell relations' that still feature in every standard text on thermodynamics. It also outlines his famous thought experiment, later named Maxwell's 'demon'. This idea, which appeared to contradict the second law of thermodynamics, would inspire scientific debate well into the twentieth century. More recently, it has sparked developments in the new sciences of nanotechnology and quantum computing.

  • av James Clerk Maxwell
    4 858,-

    Volume III: 1874-1879 covers the period of Maxwell's direction of the Cavendish Laboratory and documents the espousal of his theories by a wider circle of physicists. During this last period of his life his work began to achieve the pre-eminence in the classical physics of the nineteenth century, which it has retained ever since.

  • av James Clerk Maxwell
    604 - 686,-

    James Clerk Maxwell's influential contribution to nineteenth-century physics brought together all the experimental and theoretical advances in the field of electricity and magnetism known at the time. First published in 1873, it contains Maxwell's famous equations on electromagnetic theory. Volume 1 covers electrostatics and electrokinematics.

  • av James Clerk Maxwell
    1 144,-

    Before his death in 1879 at the age of 48, Clerk Maxwell had made major contributions to many areas of theoretical physics and mathematics. He is generally considered the third most important physicist of all time, after Newton and Einstein. These collected papers show the wide range of his interests.

  • av James Clerk Maxwell
    832,-

    Before his death in 1879 at the age of 48, Clerk Maxwell had made major contributions to many areas of theoretical physics and mathematics. He is generally considered the third most important physicist of all time, after Newton and Einstein. These collected papers show the wide range of his interests.

  • av James Clerk Maxwell
    326,-

    Published posthumously in 1888, this treatise by the first Cavendish Professor of Physics at Cambridge explores and explains the fundamental principles and laws that are the basis of elementary physics. Maxwell was at the forefront of physics and mathematics during the nineteenth century and his pioneering work brought together existing ideas to give 'a dynamical theory of the electromagnetic field'. This work inspired not only the applications of electromagnetic waves like fibre optics but also Einstein's theory of relativity. The text explains many of Newton's laws and the unifying concepts that govern a body and its motion. The increment in the complexity of topics allows one to build a solid understanding of the accepted laws of mathematical physics that explain topics like force, work, energy and the centre mass point of a material system. This logical guide and instruction is as timeless as the laws of physics that it explains.

  • av James Clerk Maxwell
    1 660,-

    Volume II: 1862-1873 contains texts which illuminate Maxwell's scientific maturity. In this period he wrote the classic works on field physics and statistical molecular theory which established his unique status in the history of science. His important correspondence with Thomson and Tait provides remarkable insight into the major themes of his physics.

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