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  • Cited by 1
Publisher:
Cambridge University Press
Online publication date:
May 2016
Print publication year:
2016
Online ISBN:
9781316535233

Book description

The principles of classical physics, though superseded in specific fields by such theories as quantum mechanics and general relativity, are still of great importance in a broad range of applications. The book presents fundamental concepts of classical physics in a coherent and logical manner. It discusses important topics including the mechanics of a single particle, kinetic theory, oscillations and waves. Topics including the kinetic theory of gases, thermodynamics and statistical mechanics are discussed, which are normally not present in the books on classical physics. The fundamental concepts of energy, momentum, mass and entropy are explained with examples. Discussion on concepts of thermodynamics is presented along with the simplified explanation on Caratheodory's axioms. It covers chapters on wave motion and statistical physics, useful for the graduate students. Each concept is supported with real-life applications on several concepts including impulse and collision, Bernoulli's equation, and friction.

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Contents

Bibliography
[1] L. N., Cooper, Physics: Structure and meaning (University Press of New England, 1970).
[2] R. P., Feynman, R. B., Leighton, and M., Sands, The Feynman lectures in Physics, vol. 1 (Addison Wesley, 1965).
[3] J., Roche, Eur. J. Phys. 24, 185 (2003).
[4] D. S., Cardwell, James Joule: a biography (Manchester Univ. Press, 1989).
[5] L., Weinstein, Physics Teacher 49, January issue (2011).
[6] R., Parthasarathy, Phys. Teach. 50, 395 (2012).
[7] J., Kepler, Gesammelete Werke: Epitome astronomicae Copernicanae, vol. 7, ed. M., Caspar (C. H. Beck, Munich, 1963) pp. 87–88.
[8] M., Jammer, Concepts of mass (Dover, 1997) p. 55.
[9] J., Roche, Eur. J. Phys. 26, 225 (2005).
[10] I., Newton, Mathematical principles of natural philosophy, transl. A., Motte and F., Cajori (University of California Press, 1966).
[11] E., Mach, The science of mechanics, transl. T., McCormach (Open Court, 1960).
[12] A., Einstein, The collected works of Albert Einstein, vol. 2, tranl. A., Beck (Princeton University Press, 1989) p. 286.
[13] H., Bondi, Rev. Mod. Phys. 29, 423 (1957).
[14] J., Roche, Eur. J. Phys. 27, 1019 (2006).
[15] G., Galileo, Dialogue concerning the two chief world systems: Ptolemaic and Copernican, Ed. M., Caspar (University of California Press, 1953) (First edition, 1632).
[16] S., Chandrasekhar, Newton's principia for a common reader (Oxford University Press, 1995).
[17] J., Roche, The mathematics of measurement: a critical history (Athlone/Springer, 1998) p. 158.
[18] J. L., Lagrange, Méchanique analytique (Courcier, 1853) p. 214 (First ed., 1788).
[19] J., Poynting, Phil. Trans. 175, 343 (1884).
[20] J. J., Thomson, Phil. Mag. 8, 331 (1904).
[21] M., Planck, Verh. Dtsch. Phys. Ges. 7, 136 (1906).
[22] A., Einstein, The collected papers, ed. by A., Beck (Princeton University Press, 1989).
[23] H. S., Seifert, Am. J. Phys. 30, 216 (1962).
[24] S., Chapman, Am. J. Phys. 10, 22 (1942).
[25] M., Camarca, A., Bonanno, and P., Sapia, Eur. J. Phys. 28, 1181 (2007).
[26] R. P., Bauman, Am. J. Phys. 38, 390 (1970).
[27] W., Cullen Moore, Am. J. Phys. 19, 1 (1951).
[28] R. P., Feynman, R. B., Leighton, M., Sands, The Feynman Lectures on Physics vol. 2 (Narosa, 1986).
[29] A. G., Rojo, Am. J. Phys. 73, 831 (2005).
[30] S., Subramanian, Eur. J. Phys. 12, 156 (1991).
[31] E. T., Whittaker, A treatise on the analytical dynamics of particles and rigid bodies (Cambridge University Press, 1904).
[32] E. J., Routh, The Quarterly J. Pure and Appl. Math. 6, 267 (1867).
[33] E. J., Routh, An elementary treatise on the dynamics of a system of rigid bodies (Macmillan, 1877).
[34] V., Labinac, M., Jusup, and T., Legovic, Am. J. Phys. 81, 750 (2013).
[35] S. L., Loney, Dynamics of particles and of rigid bodies (Cambridge University Press, 1913), p. 99.
[36] A. S., Ramsey, Dynamics, Part I (Cambridge University Press, 1929).
[37] A., Grewal, P., Johnson, and A., Ruina, Am. J. Phys. 79, 723 (2011).
[38] E., Offenbacher, Am. J. Phys. 38, 829 (1970).
[39] P., Arun, Eur. J. Phys. 31, 811 (2010).
[40] G. B., Thomas and R. L., Finney, Calculus and analytic geometry Ninth Edition (Addison-Wesley, 1998).
[41] G., Gamow, Gravity (Anchor books, 1962), reprinted by Dover (2002).
[42] B. A., Sherwood, Am. J. Phys. 51, 597 (1983).
[43] C., Penchina, Am. J. Phys. 46, 295 (1978).
[44] R. T., Spurr, Nature 189, 50 (1961).
[45] J. R., Bristow, Proc. Roy. Soc. Lond. A189, 88 (1947).
[46] E., Rabinowicz, Sci. Amer. 194, 109 (1956).
[47] R., Cross, Am. J. Phys. 74, 26 (2006).
[48] S. B., Edgar, Eur. J. Phys. 10, 30 (1989).
[49] L. D., Landau and E. M., Lifshitz, Mechanics (Pergamon Press, 1960).
[50] S. K., Foong, Eur. J. Phys. 29, 987 (2008).
[51] R. M., Sutton, Am. J. Phys. 13, 203 (1945).
[52] B. D., Mills Jr, Am. J. Phys. 115 (1958).
[53] E., Buckingham, Phys. Rev. 4, 345 (1914).
[54] M. A. B., Deakin, Am. J. Phys. 38, 1003 (1970).
[55] F. S., Crawford, Am. J. Phys. 39, 584 (1971).
[56] R. A., Wentzell, Am. J. Phys. 43, 460 (1975).
[57] D. A., Kessler, Nature 413, 260 (2001).
[58] D., Kleppner and R. J., Kolenkow, An introduction to mechanics (McGraw-Hill, 1973).
[59] J., Hierrezuelo, C., Carnero, Phys. Educ. 30, 177 (1995).
[60] J. D., Walker, Am. J. Phys. 43, 845 (1975).
[61] G., Planisic and E., Etkina, Phys. Teach. 50, 458 (2012).
[62] F. S., Crawford, Am. J. Phys. 50, 398 (1982).
[63] J. S., Trefil, Introduction to the Physics of Fluids and Solids (Pergamon, 1975).
[64] P. E., Ciddor, Am. J. Phys. 37, 561 (1969).
[65] S. R., Hoon and B. K., Tanner, Phys. Educ. 16, 300 (1981).
[66] E. T., Whittaker and G. N., Watson, A course of modern analysis, Fourth Edition (Cambridge University Press, 1965).
[67] R., Samajdar and S. R., Jain, J. Phys. A47, 195101 (2014).
[68] N., Manjunath, R., Samajdar, and S. R., Jain, A difference equation formalism for the nodal domains of separable billiards, preprint (2015).
[69] R., Samajdar and S. R., Jain, Ann. Phys. 351, 1 (2014).
[70] B. R., Deodhar, Rag Bodh reprinted edition (Kaustubh Art, Mumbai, 2005).
[71] J. M., Gibson, Rep. Prog. Phys. 72, 076001 (2009).
[72] H., von Helmholtz, On the sensations of tone, Second English Ed. (Dover, 1954).
[73] E., Metzger, Am. J. Phys. 35, 441 (1966).
[74] F. S., Crawford, Waves (McGraw-Hill, 1968).
[75] W. H., Bragg, The World of Sound (G. Bell and Sons, London, 1919).
[76] M., Minnaert, Phil. Mag. and Journal of Science: Series 7, 104, 235 (1933).
[77] E. M., Purcell, Am. J. Phys. 45, 3 (1977).
[78] E., Metzger, Am. J. Phys. 40, 1167 (1972).
[79] A., Mortensen, E., Nielsen, T., Matthey, and M., Drewsen, Phys. Rev. Lett. 96, 103001 (2006).
[80] A., Ridinger and N., Davidson, Phys. Rev. A 76, 013421 (2007).
[81] L., Peliti, Eur. J. Phys. 28, 249 (2007).
[82] J., Luzuriaga, Eur. J. Phys. 31, 1071 (2010).
[83] S., Dushman, Scientific foundations of vacuum technique (Wiley, 1962) II Ed., p. 14.
[84] H. S., Leff, Phys. Teach. 50, 28 (2012).
[85] H. S., Leff, Phys. Teach. 50, 87 (2012).
[86] F. L., Lambert and H. S., Leff, J. Chem. Educ. 86, 94 (2009).
[87] H. S., Leff, Phys. Teach. 50, 170 (2012).
[88] H. S., Leff, Phys. Teach. 50, 215 (2012).
[89] G., Hardin, Science 162, 1243 (1968).
[90] A., Sommerfeld, Thermodynamics and statistical mechanics (Academic Press, 1952).
[91] P. T., Landsberg, Am. J. Phys. 65, 269 (1997).
[92] P. T., Landsberg, Rev. Mod. Phys. 28, 363 (1956).
[93] P. T., Landsberg, J. Phys. A 22, 139 (1989).
[94] H. A., Buchdahl, Am. J. Phys. 17, 41 (1949).
[95] H. A., Buchdahl, Z. Phys. 152, 425 (1958).
[96] F. W., Sears, Am. J. Phys. 31, 747 (1963).
[97] M. J., Klein, Am. J. Phys. 26, 80 (1958).
[98] J. S., Thomsen, Am. J. Phys. 64, 580 (1996).
[99] H. S., Leff, Am. J. Phys. 64, 1261 (1996).
[100] J., Walker, The flying circus of physics with answers (John Wiley and Sons, 1975).
[101] F. L., Curzon and B., Ahlborn, Am. J. Phys. 43, 22 (1975).
[102] Physics Challenge for Teachers and Students, Phys. Teach. 49, 139 (2011).
[103] H. S., Leff, Phys. Teach. 50, 274 (2012).
[104] D., Styer, Am. J. Phys. 78, 1077 (2010).
[105] L. D., Landau and E. M., Lifshitz, Statistical Physics (Pergamon Press, 1951).
[106] J. R., Dorfman, An introduction to chaos in nonequilibrium statistical mechanics (Cambridge University Press, 1999).
[107] P., Gaspard, Chaos, scattering, and statistical mechanics (Cambridge University Press, 1998).
[108] S., Moudgalya, S., Chandra, and S. R., Jain, Ann. Phys 361, 82 (2015).
[109] E. T., Jaynes, Am. J. Phys. 33, 391 (1965).
[110] H. J., Bernstein and V. F., Weisskopf, Am. J. Phys. 55, 974 (1987).
[111] A.I.P. Handbook (McGraw-Hill, 1972), 3rd edition.
[112] D. E., Neuenschwander, Am. J. Phys. 63, 108 (1995).
[113] H. S., Zapolsky, Am. J. Phys. 63, 875 (1995).
[114] J. H., Hannay, Am. J. Phys. 63, 877 (1995).

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