contestada

For constant volume processes the heat capacity of gas A is greater than the heat capacity of gas B. We conclude that when they both absorb the same energy as heat at constant volume:
A. the temperature of A increases more than the temperature of B
B. the temperature of B increases more than the temperature of A
C. the internal energy of A increases more than the internal energy of B
D. the internal energy of B increases more than the internal energy of A
E. A does more positive work than B

Respuesta :

Answer:

B). the temperature of B increases more than the temperature of A

Explanation:

For constant volume process, relation between molar heat capacity and temperature is given by,

[tex]$\Delta Q = mC_v \Delta T$[/tex]

where, ΔQ is the amount of heat required

              m is the mass of the gas

              [tex]$C_v$[/tex] is heat capacity at constant volume

              ΔT is the change in temperature.

For a constant energy ΔQ,

[tex]$C_v=\frac{1}{\Delta T}$[/tex]

Given, [tex]$(C_v)_A>(C_v)_B$[/tex]

∴     [tex]$(\Delta T)_A < (\Delta T)_B $[/tex]

Thus the temperature of gas B increases more than the temperature of gas A.

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