Part 1
The ratio Cc/Cp = γ for gas. Its molecular weight is ‘M’. Its specific heat capacity at constant pressure is :
10
Sep
The ratio Cc/Cp = γ for gas. Its molecular weight is ‘M’. Its specific heat capacity at constant pressure is : The ratio Cc/Cp = γ for gas. Its molecular weight is 'M'. Its specific heat capacity at constant pressure is : September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - [...]
If for hydrogen s_p – s_v = a and oxygen s_p -s_v = b, where s_p and s_v refer to specific heats at constant pressure and at constant volume then
10
Sep
If for hydrogen s_p – s_v = a and oxygen s_p -s_v = b, where s_p and s_v refer to specific heats at constant pressure and at constant volume then If for hydrogen s_p - s_v = a and oxygen s_p -s_v = b where s_p and s_v refer to specific heats at constant pressure [...]
A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 .
10
Sep
A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 . A mixture of n1 moles of monoatomic gas and n2 moles of diatomic gas has gamma = 1.5 . September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , [...]
For hydrogen gas C_p – C_v = a and for oxygen gas C_p – C_v = b, C_p and C_v being molar specific heats. The relation between a and b is
10
Sep
For hydrogen gas C_p – C_v = a and for oxygen gas C_p – C_v = b, C_p and C_v being molar specific heats. The relation between a and b is C_p and C_v being molar specific heats. The relation between a and b is For hydrogen gas C_p - C_v = a and for [...]
If for a gas. R/Cv = 0.67, the gas is
10
Sep
If for a gas. R/Cv = 0.67, the gas is If for a gas. R/Cv = 0.67 the gas is September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
A vessel containing 5 litres of a gas at 0.8 m pressure is connected to an evacuated vessel of volume 3 litres. The resultant pressure inside will be (assuming whole system to be isolated)
10
Sep
A vessel containing 5 litres of a gas at 0.8 m pressure is connected to an evacuated vessel of volume 3 litres. The resultant pressure inside will be (assuming whole system to be isolated) A vessel containing 5 litres of a gas at 0.8 m pressure is connected to an evacuated vessel of volume 3 [...]
Each molecules of a gas has f degree of freedom. The ratio gamma for the gas is.
10
Sep
Each molecules of a gas has f degree of freedom. The ratio gamma for the gas is. Each molecules of a gas has f degree of freedom. The ratio gamma for the gas is. September 10, 2021 Category: Cengage NEET by C.P Singh , Chapter 21 - Laws of Thermodynamics , Part 1 ,
A thermally insulated container is divided into two parts by a screen. In one part the pressure and temperature are P and T for an ideal gas filled. In the second part it is vacuum. If now a small hole is created in the screen, then the temperature of the gas will
10
Sep
A thermally insulated container is divided into two parts by a screen. In one part the pressure and temperature are P and T for an ideal gas filled. In the second part it is vacuum. If now a small hole is created in the screen, then the temperature of the gas will 3. The work [...]
When 1 g of water at 0 C and 1 × 10^5 N/m^2 pressure is converted into ice of volume 1.091 cm^3, the external work done will be:
10
Sep
When 1 g of water at 0 C and 1 × 10^5 N/m^2 pressure is converted into ice of volume 1.091 cm^3, the external work done will be: the external work done will be: When 1 g of water at 0 C and 1 × 10^5 N/m^2 pressure is converted into ice of volume 1.091 [...]
The latent heat of vaporization of water is 2240 J/gm. If the work done in the process of expansion of 1 g of water is 168 J, then increase in internal energy is
10
Sep
The latent heat of vaporization of water is 2240 J/gm. If the work done in the process of expansion of 1 g of water is 168 J, then increase in internal energy is The latent heat of vaporization of water is 2240 J/gm. If the work done in the process of expansion of 1 g [...]