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CHAPTER III
MAXWELL'S LAW
SECTION
22.
PAGE
UNEQUAL DISTRIBUTION OF MOLECULAR SPEED
23. THE APPLICABILITY OF THE CALCULUS OF PROBABILITY TO THE
41
30.
31.
28. VALUES OF THE SPEEDS
29. EQUALITY OF TEMPERATURE OF DIFFERENT GASES
GAY-LUSSAC'S LAW OF GASEOUS DENSITIES
AVOGADRO'S LAW
56
59
62
63
45.
44. HIRN'S AND VAN DER WAALS'S CORRECTION OF BOYLE'S
LAW
COMPARISON WITH REGNAULT'S OBSERVATIONS.
46. PRESSURE- AND VOLUME-COEFFICIENTS
100
103
104
CHAPTER V
MOLECULAR AND ATOMIC ENERGY
52. DULONG AND PETIT'S LAW FOR GASES
53. RATIO OF THE MOLECULAR TO THE TOTAL ENERGY
56. APPROXIMATE CALCULATION OF THE ATOMIC ENERGY IN
POLYATOMIC MOLECULES
57. DISSOCIATION AND DISGREGATION
121
127
.
130
58.
DEPENDENCE OF THE SPECIFIC HEATS ON TEMPERATURE
132
59. DEPENDENCE OF THE SPECIFIC HEAT ON THE NUMBER OF
THE MOLECULAR FREE PATHS AND THE
PHENOMENA CONDITIONED BY THEM
67. FREE PATH IF ALL THE MOLECULES HAVE EQUAL SPEED
68. MOLECULAR FREE PATH WITH AN UNEQUAL DISTRIBUTION OF
SPEEDS
160
161
71. RELATIONS OF THE FREE PATH TO THE PRESSURE AND
TEMPERATURE
164
72. ON THE ABSOLUTE VALUE OF THE FREE PATH.
169
CHAPTER VII
VISCOSITY OF GASES
73.
74.
75.
76.
ON THE CHARACTER OF INTERNAL AND EXTERNAL FRICTION.
NEWTON'S FUNDAMENTAL LAW OF INTERNAL FRICTION.
FORMULA FOR THE COEFFICIENT OF VISCOSITY OF A GAS
THEORETICAL LAWS OF GASEOUS FRICTION
171
172
174
178
DIFFERENT GASES
77. OBSERVATIONS ON THE FRICTION OF GASES AT DIFFERENT
PRESSURES .
78. NUMERICAL VALUES OF THE FREE PATH AND COLLISION-
FREQUENCY OF PARTICLES OF AIR.
79. FREE PATH AND COLLISION-FREQUENCY OF THE PARTICLES OF
80. VISCOSITY OF GASEOUS MIXTURES
81. FRICTION OF GASES ON FIXED BODIES
181
COMPARISON OF THE THEORY WITH EXPERIMENT
84. PHENOMENA IN VERY RAREFIED GASES
85. INFLUENCE OF THE TEMPERATURE ON THE VISCOSITY
DEPENDENCE ON THE TEMPERATURE
88. DISSOCIATION
89. ALTERATION OF VISCOSITY BY DISSOCIATION
223
228
230
COMPARISON OF THE THEORY WITH THE BEHAVIOUR OF
CARBONIC ACID
233
91. VISCOSITY OF THE PERFECTLY-DISSOCIATED GAS AND OF THE
THEORETICAL VALUE OF THE COEFFICIENT OF VISCOSITY
FREE PATH OF A GASEOUS MOLECULE IN A GAS OF DIFFE-
RENT KIND
251
256
105. RELATION OF THE CONDUCTION OF HEAT TO THE VISCOSITY.
106. THEORETICAL LAWS OF THE CONDUCTION OF HEAT.
107. OBSERVATIONS OF THE CONDUCTIVITY AT DIFFERENT PRES-
SURES.
282
287
288
108. CALCULATION OF THE HEAT-CONDUCTIVITY FROM THE COEFFI-
CIENT OF VISCOSITY
291
111. SECTION OF COMPOUND MOLECULES
112. CHEMICAL STRUCTURE OF MOLECULES
113. MOLECULAR VOLUMES
114. INFLUENCE OF THE MOLECULAR HEAT-MOTION IN LIQUIDS
299
300
302
304
309
ON THE APPARENT SIZE OF THE MOLECULAR VOLUME. . 315
115. POSSIBILITY OF DETERMINING THE SIZE OF GASEOUS MOLE-
118. CALCULATION OF THE SIZE OF THE MOLECULES FROM THE