Part 1

Sahay Sir > Question Answers > MTG NEET Physics > Part 1
The volume of one mole of an ideal gas changes from V to 2V at temperature 300 K. If R is universal gas constant, then work done in this process is.
12
Sep
The volume of one mole of an ideal gas changes from V to 2V at temperature 300 K. If R is universal gas constant, then work done in this process is. The volume of one mole of an ideal gas changes from V to 2V at temperature 300 K. If R is universal gas constant [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: The volume of one mole of an ideal gas changes from V to 2V at temperature 300 K. If R is universal gas constant , then work done in this process is. ,
An ideal gas is taken around the cycle ABCA as shown in the P – V diagram. The net work done by the gas during the cycle equal to
12
Sep
An ideal gas is taken around the cycle ABCA as shown in the P – V diagram. The net work done by the gas during the cycle equal to An ideal gas is taken around the cycle ABCA as shown in the P - V diagram. The net work done by the gas during the [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: An ideal gas is taken around the cycle ABCA as shown in the P - V diagram. The net work done by the gas during the cycle equal to ,
0.2 moles of an ideal gas is taken round the cycle ABC as shown in the figure. The path B → C is an adiabatic process, A → B is an isochoric process and C → A is an isobaric process. The temperature at A and B are TA = 300 K and TB = 500 K and pressure at A is 1 atm and volume at A is 4.9 L. The volume at C is
12
Sep
0.2 moles of an ideal gas is taken round the cycle ABC as shown in the figure. The path B → C is an adiabatic process, A → B is an isochoric process and C → A is an isobaric process. The temperature at A and B are TA = 300 K and TB = [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: 0.2 moles of an ideal gas is taken round the cycle ABC as shown in the figure. The path B → C is an adiabatic process , A → B is an isochoric process and C → A is an isobaric process. The temperature at A and B are TA = 300 K and TB = 500 K and pressure at A is 1 atm and volume at A is 4.9 L. The volume at C is ,
An ideal gas is taken round a cyclic process represented by the triangle ABC drawn in order on a P-V diagram. The coordinates of A, B, C are (4, 1), (2, 4), (2, 1) respectively. The work done in the complete cycle is
12
Sep
An ideal gas is taken round a cyclic process represented by the triangle ABC drawn in order on a P-V diagram. The coordinates of A, B, C are (4, 1), (2, 4), (2, 1) respectively. The work done in the complete cycle is 1 1) respectively. The work done in the complete cycle is 2 [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: 1 , 1) respectively. The work done in the complete cycle is , 2 , 4 , An ideal gas is taken round a cyclic process represented by the triangle ABC drawn in order on a P-V diagram. The coordinates of A , B , C are (4 ,
Starting with the same initial conditions, an ideal gas expands from volume V1 to V2 in three different ways, the work done by the gas is W1 if the process is purely isothermal, W2 if purely isobaric and W3 if purely adiabatic, then
12
Sep
Starting with the same initial conditions, an ideal gas expands from volume V1 to V2 in three different ways, the work done by the gas is W1 if the process is purely isothermal, W2 if purely isobaric and W3 if purely adiabatic, then an ideal gas expands from volume V1 to V2 in three different [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: an ideal gas expands from volume V1 to V2 in three different ways , Starting with the same initial conditions , the work done by the gas is W1 if the process is purely isothermal , then , W2 if purely isobaric and W3 if purely adiabatic ,
The cyclic process for 1 mole of an ideal gas is shown in the V-T diagram. The work done in AB, BC and CA respectively is.
12
Sep
The cyclic process for 1 mole of an ideal gas is shown in the V-T diagram. The work done in AB, BC and CA respectively is. BC and CA respectively is. The cyclic process for 1 mole of an ideal gas is shown in the V-T diagram. The work done in AB September 12, 2021 [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: BC and CA respectively is. , The cyclic process for 1 mole of an ideal gas is shown in the V-T diagram. The work done in AB ,
A given mass of a gas is compressed isothermally until its pressure is doubled. It is then allowed to expand adiabatically until its original volume is restored and its pressure is then found to be 0.75 of its initial pressure. The ratio of the specific heats of the gas is approximately
12
Sep
A given mass of a gas is compressed isothermally until its pressure is doubled. It is then allowed to expand adiabatically until its original volume is restored and its pressure is then found to be 0.75 of its initial pressure. The ratio of the specific heats of the gas is approximately Heat is supplied to [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: Heat is supplied to a diatomic gas at constant pressure. The ratio of Δ Q : Δ U : ΔW is : ,
An ideal gas with pressure P, volume V and temperature T is expanded isothermally to a volume 2V and a final pressure Pi . If the same gas is expanded adiabatically to a volume 2V, the final pressure is Pa. In the terms of the ratio of the two specific heats of the gas is y. The ratio pa ​/pi ​is
12
Sep
An ideal gas with pressure P, volume V and temperature T is expanded isothermally to a volume 2V and a final pressure Pi . If the same gas is expanded adiabatically to a volume 2V, the final pressure is Pa. In the terms of the ratio of the two specific heats of the gas is [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: An ideal gas with pressure P , the final pressure is Pa. In the terms of the ratio of the two specific heats of the gas is y. The ratio pa ​/pi ​is , volume V and temperature T is expanded isothermally to a volume 2V and a final pressure Pi . If the same gas is expanded adiabatically to a volume 2V ,
A polyatomic gas (lambda=(4)/(3)) is compressed to (1)/(8) of its volume adiabatically. If initial pressure is P_(0), Its mew pressure will be
12
Sep
A polyatomic gas (lambda=(4)/(3)) is compressed to (1)/(8) of its volume adiabatically. If initial pressure is P_(0), Its mew pressure will be A polyatomic gas (lambda=(4)/(3)) is compressed to (1)/(8) of its volume adiabatically. If initial pressure is P_(0) Its mew pressure will be September 12, 2021 Category: Chapter 15 - Thermodynamics , MTG NEET [...]
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: A polyatomic gas (lambda=(4)/(3)) is compressed to (1)/(8) of its volume adiabatically. If initial pressure is P_(0) , Its mew pressure will be ,
For a monoatomic ideal gas undergoing an adiabatic change, the relation between temperature and volume TV^(x) = constant, where x is.
12
Sep
For a monoatomic ideal gas undergoing an adiabatic change, the relation between temperature and volume TV^(x) = constant, where x is. For a monoatomic ideal gas undergoing an adiabatic change the relation between temperature and volume TV^(x) = constant where x is September 12, 2021 Category: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Posted in: Chapter 15 - Thermodynamics , MTG NEET Physics ,
Tags: For a monoatomic ideal gas undergoing an adiabatic change , the relation between temperature and volume TV^(x) = constant , where x is ,