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Which one of the following graphs is correct at constant pressure ?
13
Sep
Which one of the following graphs is correct at constant pressure ? Which one of the following graphs is correct at constant pressure ? September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
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What is the fraction of molecular volume to the actual volume occupied by oxygen gas at STP ? Given, the diameter of oxygen molecule is 2 A .
13
Sep
What is the fraction of molecular volume to the actual volume occupied by oxygen gas at STP ? Given, the diameter of oxygen molecule is 2 A . the diameter of oxygen molecule is 2 A . What is the fraction of molecular volume to the actual volume occupied by oxygen gas at STP ? [...]
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The perfect gas equation for 4 gm of hydrogen gas is
13
Sep
The perfect gas equation for 4 gm of hydrogen gas is The perfect gas equation for 4 gm of hydrogen gas is September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
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The mean free path of a gas molecule at STP is 2.1×10^−7m . Find the diameter of the molecule. (Boltzmann constant =1.4×10^−23J/K )
13
Sep
The mean free path of a gas molecule at STP is 2.1×10^−7m . Find the diameter of the molecule. (Boltzmann constant =1.4×10^−23J/K ) The mean free path of a gas molecule at STP is 2.1×10^−7m . Find the diameter of the molecule. (Boltzmann constant =1.4×10^−23J/K ) September 13, 2021 Category: Chapter 14 - Thermometry, Expansion [...]
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Tags: The mean free path of a gas molecule at STP is 2.1×10^−7m . Find the diameter of the molecule. (Boltzmann constant =1.4×10^−23J/K ) ,
Calculate the mean free path of the molecule of gas having number of density 0.167 x 10^28 m^-3 and molecular diameters 1 A.
13
Sep
Calculate the mean free path of the molecule of gas having number of density 0.167 x 10^28 m^-3 and molecular diameters 1 A. Calculate the mean free path of the molecule of gas having number of density 0.167 x 10^28 m^-3 and molecular diameters 1 A. September 13, 2021 Category: Chapter 14 - Thermometry, Expansion [...]
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Tags: Calculate the mean free path of the molecule of gas having number of density 0.167 x 10^28 m^-3 and molecular diameters 1 A. ,
A vessel contains 60,000 molecules of a gas. Due to a very fine hole in the wall, 10,000 molecules escape from the vessel. Then the mean free path of the molecules of the gas
13
Sep
A vessel contains 60,000 molecules of a gas. Due to a very fine hole in the wall, 10,000 molecules escape from the vessel. Then the mean free path of the molecules of the gas 000 molecules escape from the vessel. Then the mean free path of the molecules of the gas 000 molecules of a [...]
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Tags: 000 molecules escape from the vessel. Then the mean free path of the molecules of the gas , 000 molecules of a gas. Due to a very fine hole in the wall , 10 , A vessel contains 60 ,
The volume of a gas and number of molecules with in that volume for three situation are (1) 2V0 and N0 (2) 3V0 and 3N0 (3) 3V0 and 9N0. The situations are ranked according to the mean free path as
13
Sep
The volume of a gas and number of molecules with in that volume for three situation are (1) 2V0 and N0 (2) 3V0 and 3N0 (3) 3V0 and 9N0. The situations are ranked according to the mean free path as The volume of a gas and number of molecules with in that volume for three [...]
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Tags: The volume of a gas and number of molecules with in that volume for three situation are (1) 2V0 and N0 (2) 3V0 and 3N0 (3) 3V0 and 9N0. The situations are ranked according to the mean free path as ,
Mean free path of a gas molecules is (a) inversely proportional to number of molecules per unit volume
13
Sep
Mean free path of a gas molecules is (a) inversely proportional to number of molecules per unit volume Mean free path of a gas molecules is (a) inversely proportional to number of molecules per unit volume September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
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Tags: Mean free path of a gas molecules is (a) inversely proportional to number of molecules per unit volume ,
A light container having a diatomic gas enclosed within is moving with a velocity V. Mass of the gas is M and number of moles is n. What is Kinetic Energy of gas w.r.t. ground?
13
Sep
A light container having a diatomic gas enclosed within is moving with a velocity V. Mass of the gas is M and number of moles is n. What is Kinetic Energy of gas w.r.t. ground? A light container having a diatomic gas enclosed within is moving with a velocity V. Mass of the gas is [...]
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Tags: A light container having a diatomic gas enclosed within is moving with a velocity V. Mass of the gas is M and number of moles is n. What is Kinetic Energy of gas w.r.t. ground? ,
The specific heat of diatomic gas at constant volume is 0.25 cal/g k^-1.Calculate its molar weight.
13
Sep
The specific heat of diatomic gas at constant volume is 0.25 cal/g k^-1.Calculate its molar weight. The specific heat of diatomic gas at constant volume is 0.25 cal/g k^-1.Calculate its molar weight. September 13, 2021 Category: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
Posted in: Chapter 14 - Thermometry, Expansion and KTG , MTG NEET Physics ,
Tags: The specific heat of diatomic gas at constant volume is 0.25 cal/g k^-1.Calculate its molar weight. ,