360204 Match the Column I with Column II
Column I
Column II
A
Average speed \(v_{a v}\)
P
\(\sqrt{\dfrac{3 R T}{M}}\)
B
Root mean square \({v_{rms{\text{ }}}}\)
Q
\(\sqrt{\dfrac{8 R T}{\pi M}}\)
C
Most probable speed \({v_{{\text{mp}}}}\)
R
\(\sqrt{\dfrac{2 R T}{M}}\)

360205 A cylinder of capacity 20 litres is filled with \({H_2}\) gas. The total average kinetic energy of translatory motion of its molecules is \(1.5 \times {10^5}\;J\). The pressure of hydrogen in the cylinder is

360206 \(N\) moles of a diatomic gas in a cylinder are at a temperature \(T\). Heat is supplied to the cylinder such that temperature remains constant but \(n\) moles of the diatomic gas get converted into monoatomic gas. What is the change in the total kinetic energy of the gas?

360207 When a gas is forced in a smaller volume without change in temperature, its pressure increase because its molecules

360204 Match the Column I with Column II
Column I
Column II
A
Average speed \(v_{a v}\)
P
\(\sqrt{\dfrac{3 R T}{M}}\)
B
Root mean square \({v_{rms{\text{ }}}}\)
Q
\(\sqrt{\dfrac{8 R T}{\pi M}}\)
C
Most probable speed \({v_{{\text{mp}}}}\)
R
\(\sqrt{\dfrac{2 R T}{M}}\)

360205 A cylinder of capacity 20 litres is filled with \({H_2}\) gas. The total average kinetic energy of translatory motion of its molecules is \(1.5 \times {10^5}\;J\). The pressure of hydrogen in the cylinder is

360206 \(N\) moles of a diatomic gas in a cylinder are at a temperature \(T\). Heat is supplied to the cylinder such that temperature remains constant but \(n\) moles of the diatomic gas get converted into monoatomic gas. What is the change in the total kinetic energy of the gas?

360207 When a gas is forced in a smaller volume without change in temperature, its pressure increase because its molecules

360204 Match the Column I with Column II
Column I
Column II
A
Average speed \(v_{a v}\)
P
\(\sqrt{\dfrac{3 R T}{M}}\)
B
Root mean square \({v_{rms{\text{ }}}}\)
Q
\(\sqrt{\dfrac{8 R T}{\pi M}}\)
C
Most probable speed \({v_{{\text{mp}}}}\)
R
\(\sqrt{\dfrac{2 R T}{M}}\)

360205 A cylinder of capacity 20 litres is filled with \({H_2}\) gas. The total average kinetic energy of translatory motion of its molecules is \(1.5 \times {10^5}\;J\). The pressure of hydrogen in the cylinder is

360206 \(N\) moles of a diatomic gas in a cylinder are at a temperature \(T\). Heat is supplied to the cylinder such that temperature remains constant but \(n\) moles of the diatomic gas get converted into monoatomic gas. What is the change in the total kinetic energy of the gas?

360207 When a gas is forced in a smaller volume without change in temperature, its pressure increase because its molecules

360204 Match the Column I with Column II
Column I
Column II
A
Average speed \(v_{a v}\)
P
\(\sqrt{\dfrac{3 R T}{M}}\)
B
Root mean square \({v_{rms{\text{ }}}}\)
Q
\(\sqrt{\dfrac{8 R T}{\pi M}}\)
C
Most probable speed \({v_{{\text{mp}}}}\)
R
\(\sqrt{\dfrac{2 R T}{M}}\)

360205 A cylinder of capacity 20 litres is filled with \({H_2}\) gas. The total average kinetic energy of translatory motion of its molecules is \(1.5 \times {10^5}\;J\). The pressure of hydrogen in the cylinder is

360206 \(N\) moles of a diatomic gas in a cylinder are at a temperature \(T\). Heat is supplied to the cylinder such that temperature remains constant but \(n\) moles of the diatomic gas get converted into monoatomic gas. What is the change in the total kinetic energy of the gas?

360207 When a gas is forced in a smaller volume without change in temperature, its pressure increase because its molecules