Chapter 12 – Kinetic Theory of Gases

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Calculate the number of atom in 39.4 g gold. Molar mass of gold is 197 g “mole”^(-1)
15
Sep
Calculate the number of atom in 39.4 g gold. Molar mass of gold is 197 g “mole”^(-1) Calculate the number of atom in 39.4 g gold. Molar mass of gold is 197 g "mole"^(-1) September 15, 2021 Category: Chapter 12 - Kinetic Theory of Gases , NCERT Exemplar Class 11 , Physics ,
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Which of the following diagrams figure depicts ideal gas behaviour ?
15
Sep
Which of the following diagrams figure depicts ideal gas behaviour ? Which of the following diagrams (figure) depicts ideal gas behaviour ? September 15, 2021 Category: Chapter 12 - Kinetic Theory of Gases , NCERT Exemplar Class 11 , Physics ,
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In a diatomic molecule, the rotational energy at a given temperature.
15
Sep
In a diatomic molecule, the rotational energy at a given temperature. In a diatomic molecule the rotational energy at a given temperature. September 15, 2021 Category: Chapter 12 - Kinetic Theory of Gases , NCERT Exemplar Class 11 , Physics ,
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ABCDEFGH is a hollow cube made of an insulator (Fig. 13.4). Face ABCD has positive charge on it. Inside the cube, we have ionized hydrogen. The usual kinetic theory expression for pressure
15
Sep
ABCDEFGH is a hollow cube made of an insulator (Fig. 13.4). Face ABCD has positive charge on it. Inside the cube, we have ionized hydrogen. The usual kinetic theory expression for pressure ABCDEFGH is a hollow cube made of an insulator (Fig. 13.4). Face ABCD has positive charge on it. Inside the cube we have [...]
Posted in: Chapter 12 - Kinetic Theory of Gases , NCERT Exemplar Class 11 , Physics ,
Tags: ABCDEFGH is a hollow cube made of an insulator (Fig. 13.4). Face ABCD has positive charge on it. Inside the cube , we have ionized hydrogen. The usual kinetic theory expression for pressure ,
An inflated rubber balloon contains one mole of an ideal gas, has a pressure P, volume V and temperature T. If the temperature rises to 1.1T, and the volume is increased to 1.05 V, the final pressure will be
15
Sep
An inflated rubber balloon contains one mole of an ideal gas, has a pressure P, volume V and temperature T. If the temperature rises to 1.1T, and the volume is increased to 1.05 V, the final pressure will be An inflated rubber balloon contains one mole of an ideal gas and the volume is increased [...]
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Tags: An inflated rubber balloon contains one mole of an ideal gas , and the volume is increased to 1.05 V , has a pressure P , the final pressure will be , volume V and temperature T. If the temperature rises to 1.1T ,
Volume versus temperature graphs for a given mass of an ideal gas are shown in figure at two different values of constant pressure. What can be inferred about relation between P1 and P2 ?
15
Sep
Volume versus temperature graphs for a given mass of an ideal gas are shown in figure at two different values of constant pressure. What can be inferred about relation between P1 and P2 ? Volume versus temperature graphs for a given mass of an ideal gas are shown in figure at two different values of [...]
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Tags: Volume versus temperature graphs for a given mass of an ideal gas are shown in figure at two different values of constant pressure. What can be inferred about relation between P1 and P2 ? ,
A vessel of volume V contains a mixture of 1 mole of hydrogen and 1 mole of oxygen (both considered as ideal). Let f1(v)dv denote the fraction of molecules with speed between v and (v+dv) with f2(v)dv, similarly for oxygen. Then
15
Sep
A vessel of volume V contains a mixture of 1 mole of hydrogen and 1 mole of oxygen (both considered as ideal). Let f1(v)dv denote the fraction of molecules with speed between v and (v+dv) with f2(v)dv, similarly for oxygen. Then A vessel of volume V contains a mixture of 1 mole of hydrogen and [...]
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Tags: A vessel of volume V contains a mixture of 1 mole of hydrogen and 1 mole of oxygen (both considered as ideal). Let f1(v)dv denote the fraction of molecules with speed between v and (v+dv) with f2(v)dv , similarly for oxygen. Then ,
A cylinder containing an ideal gas is in vertical position and has a piston of mass M that is able to move up or down without friction. If the temperature is increased,
15
Sep
A cylinder containing an ideal gas is in vertical position and has a piston of mass M that is able to move up or down without friction. If the temperature is increased, A cylinder containing an ideal gas is in vertical position and has a piston of mass M that is able to move up [...]
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Tags: A cylinder containing an ideal gas is in vertical position and has a piston of mass M that is able to move up or down without friction. If the temperature is increased ,
1 mole of an ideal gas is contained in a cubical volume V, ABCDEFGH at 300 K (Fig. 13.1). One face of the cube (EFGH) is made up of a material which totally absorbs any gas molecule incident on it. At any given time,
15
Sep
1 mole of an ideal gas is contained in a cubical volume V, ABCDEFGH at 300 K (Fig. 13.1). One face of the cube (EFGH) is made up of a material which totally absorbs any gas molecule incident on it. At any given time, 1 mole of an ideal gas is contained in a cubical [...]
Posted in: Chapter 12 - Kinetic Theory of Gases , NCERT Exemplar Class 11 , Physics ,
Tags: 1 mole of an ideal gas is contained in a cubical volume V , ABCDEFGH at 300 K (Fig. 13.1). One face of the cube (EFGH) is made up of a material which totally absorbs any gas molecule incident on it. At any given time ,
A cubic vessel (with faces horizontal + vertical) contains an ideal gas at NTP. The vessel is being carried by a rocket which is moving at a speed of 500m s-1 in vertical direction. The pressure of the gas inside the vessel as observed by us on the ground
13
Sep
A cubic vessel (with faces horizontal + vertical) contains an ideal gas at NTP. The vessel is being carried by a rocket which is moving at a speed of 500m s-1 in vertical direction. The pressure of the gas inside the vessel as observed by us on the ground An ideal gas undergoes cyclic process [...]
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Tags: An ideal gas undergoes cyclic process ABCDA as shown in given P−V diagram. The amount of work done by the gas is ,