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The given figure shows the adiabatic curve for n moles of an ideal gas; the bulk modulus for the gas corresponding to the point P will be
29
Oct
The given figure shows the adiabatic curve for n moles of an ideal gas; the bulk modulus for the gas corresponding to the point P will be The given figure shows the adiabatic curve for n moles of an ideal gas; the bulk modulus for the gas corresponding to the point P will be October [...]
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Tags: The given figure shows the adiabatic curve for n moles of an ideal gas; the bulk modulus for the gas corresponding to the point P will be ,
An ideal gas (1 mol, monatomic) is in the initial state P (see the given figure) on an isothermal A at temperature T0, It is brought under a constant volume (2V0) process to Q which
29
Oct
An ideal gas (1 mol, monatomic) is in the initial state P (see the given figure) on an isothermal A at temperature T0, It is brought under a constant volume (2V0) process to Q which An ideal gas (1 mol It is brought under a constant volume (2V0) process to Q which monatomic) is in [...]
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Tags: An ideal gas (1 mol , It is brought under a constant volume (2V0) process to Q which , monatomic) is in the initial state P (see the given figure) on an isothermal A at temperature T0 ,
A cylinder of ideal gas is closed by an 8 kg movable piston (area 60 cm^2) as shown in the figure. Atmospheric pressure is 100 kPa. When the gas is heated from 30 C to 100 C,
29
Oct
A cylinder of ideal gas is closed by an 8 kg movable piston (area 60 cm^2) as shown in the figure. Atmospheric pressure is 100 kPa. When the gas is heated from 30 C to 100 C, A cylinder of ideal gas is closed by an 8 kg movable piston (area 60 cm^2) as shown [...]
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Tags: A cylinder of ideal gas is closed by an 8 kg movable piston (area 60 cm^2) as shown in the figure. Atmospheric pressure is 100 kPa. When the gas is heated from 30 C to 100 C ,
A cylindrical chamber A of uniform cross section is divided into two parts X and Y by a movable piston P which can slide without friction inside the chamber. Initially part X contains
29
Oct
A cylindrical chamber A of uniform cross section is divided into two parts X and Y by a movable piston P which can slide without friction inside the chamber. Initially part X contains A cylindrical chamber A of uniform cross section is divided into two parts X and Y by a movable piston P which [...]
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Tags: A cylindrical chamber A of uniform cross section is divided into two parts X and Y by a movable piston P which can slide without friction inside the chamber. Initially part X contains ,
A certain ideal gas undergoes a polytropic process PV^n = constant such that the molar specific heat during the process is negative. If the ratio of the specific heats of the gas
29
Oct
A certain ideal gas undergoes a polytropic process PV^n = constant such that the molar specific heat during the process is negative. If the ratio of the specific heats of the gas A certain ideal gas undergoes a polytropic process PV^n = constant such that the molar specific heat during the process is negative. If [...]
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Tags: A certain ideal gas undergoes a polytropic process PV^n = constant such that the molar specific heat during the process is negative. If the ratio of the specific heats of the gas ,
Three moles of an ideal monatomic gas perform a cycle shown in figure. The gas temperatures in different states are T1 = 400 K, T2 = 800 K, T3 = 2400 k, and T4 = 1200 K.
29
Oct
Three moles of an ideal monatomic gas perform a cycle shown in figure. The gas temperatures in different states are T1 = 400 K, T2 = 800 K, T3 = 2400 k, and T4 = 1200 K. and T4 = 1200 K. T2 = 800 K T3 = 2400 k Three moles of an ideal [...]
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Tags: and T4 = 1200 K. , T2 = 800 K , T3 = 2400 k , Three moles of an ideal monatomic gas perform a cycle shown in figure. The gas temperatures in different states are T1 = 400 K ,
Find work done by the gas in the process shown in figure:
29
Oct
Find work done by the gas in the process shown in figure: Find work done by the gas in the process shown in figure: October 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Find work done by the gas in the process shown in figure: ,
A certain balloon maintains an internal gas pressure of P0 = 100 kPa until the volume reaches V0 = 20 m^3. Beyond a volume of 20 m^3, the internal pressure varies as
29
Oct
A certain balloon maintains an internal gas pressure of P0 = 100 kPa until the volume reaches V0 = 20 m^3. Beyond a volume of 20 m^3, the internal pressure varies as A certain balloon maintains an internal gas pressure of P0 = 100 kPa until the volume reaches V0 = 20 m^3. Beyond a [...]
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Tags: A certain balloon maintains an internal gas pressure of P0 = 100 kPa until the volume reaches V0 = 20 m^3. Beyond a volume of 20 m^3 , the internal pressure varies as ,
Three processes compose a thermodynamic cycle shown in the accompanying P-V diagram. Process 1 to 2 takes place at constant temperature process 2 to 3 takes place at constant
29
Oct
Three processes compose a thermodynamic cycle shown in the accompanying P-V diagram. Process 1 to 2 takes place at constant temperature process 2 to 3 takes place at constant Three processes compose a themodynamic cycle shown in the accompanying P-V diagram. Process 1 to 2 takes place at constant temperature process 2 to 3 takes [...]
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Tags: Three processes compose a themodynamic cycle shown in the accompanying P-V diagram. Process 1 to 2 takes place at constant temperature process 2 to 3 takes place at constant ,
The relation between internal energy U, pressure P and volume V of a gas in an adiabatic process is U = a + bPV where a and b are constants. What is the effective value of adiabatic constant gama ?
29
Oct
The relation between internal energy U, pressure P and volume V of a gas in an adiabatic process is U = a + bPV where a and b are constants. What is the effective value of adiabatic constant gama ? pressure P and volume V of a gas in an adiabatic process is U = [...]
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Tags: pressure P and volume V of a gas in an adiabatic process is U = a + bPV where a and b are constants. What is the effective value of adiabatic constant gama ? , The relation between internal energy U ,