Newton's law of cooling revisited - Cartan
Newton's law of cooling revisited - Cartan Newton's law of cooling revisited - Cartan
1084 M Vollmer [19] Sullivan M C, Thompson B G and Williamson P 2008 An experiment on the dynamics of thermal diffusion Am. J. Phys. 76 637–42 [20] Sazhin S S, Gol’dshtein V A and Heial M R 2001 A transient formulation of Newton’s cooling law for spherical bodies J. Heat Transfer 123 63–4 [21] Karls M A and Scherschel J E 2003 Modeling heat flow in a thermos Am. J. Phys. 71 678–83 [22] Clarke C 2003 The physics of ice cream Phys. Educ. 248–53 [23] Gluck P and King J 2008 Physics of incandescent lamp burnout Phys. Teach. 46 29–35 [24] Spuller J E and Cobb R W 1993 Cooling of a vertical cylinder by natural convection: an undergraduate experiment Am. J. Phys. 61 568–71 [25] Bohren C F 1987 Clouds in a Glass of Beer (New York: Wiley) Chapter 8 [26] Bohren C F 1991 What Light Through Yonder Window Breaks? (New York: Wiley) Chapter 7 [27] Wolfe W L and Zissis G J 1993 The Infrared Handbook rev. edition, 4th printing (Michigan, USA: The Infrared Information Analysis Center, Environmental Research Institute of Michigan) [28] Karstädt D, Möllmann K P, Pinno F and Vollmer M 2001 There is more to see than eyes can detect: visualization of energy transfer processes and the laws of radiation for physics education Phys. Teach. 39 371–6 [29] Möllmann K-P and Vollmer M 2007 Infrared thermal imaging as a tool in university physics education Eur. J. Phys. 28 S37–50
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1084 M Vollmer<br />
[19] Sullivan M C, Thompson B G and Williamson P 2008 An experiment on the dynamics <strong>of</strong> thermal diffusion Am.<br />
J. Phys. 76 637–42<br />
[20] Sazhin S S, Gol’dshtein V A and Heial M R 2001 A transient formulation <strong>of</strong> Newton’s <strong>cooling</strong> <strong>law</strong> for spherical<br />
bodies J. Heat Transfer 123 63–4<br />
[21] Karls M A and Scherschel J E 2003 Modeling heat flow in a thermos Am. J. Phys. 71 678–83<br />
[22] Clarke C 2003 The physics <strong>of</strong> ice cream Phys. Educ. 248–53<br />
[23] Gluck P and King J 2008 Physics <strong>of</strong> incandescent lamp burnout Phys. Teach. 46 29–35<br />
[24] Spuller J E and Cobb R W 1993 Cooling <strong>of</strong> a vertical cylinder by natural convection: an undergraduate<br />
experiment Am. J. Phys. 61 568–71<br />
[25] Bohren C F 1987 Clouds in a Glass <strong>of</strong> Beer (New York: Wiley) Chapter 8<br />
[26] Bohren C F 1991 What Light Through Yonder Window Breaks? (New York: Wiley) Chapter 7<br />
[27] Wolfe W L and Zissis G J 1993 The Infrared Handbook rev. edition, 4th printing (Michigan, USA: The Infrared<br />
Information Analysis Center, Environmental Research Institute <strong>of</strong> Michigan)<br />
[28] Karstädt D, Möllmann K P, Pinno F and Vollmer M 2001 There is more to see than eyes can detect: visualization<br />
<strong>of</strong> energy transfer processes and the <strong>law</strong>s <strong>of</strong> radiation for physics education Phys. Teach. 39 371–6<br />
[29] Möllmann K-P and Vollmer M 2007 Infrared thermal imaging as a tool in university physics education Eur. J.<br />
Phys. 28 S37–50