Suppose that we change `U_("rms")` of gas in a closed container from `5xx10^(-2)` cm/sec to `10xx10^(-2)` cm/sec, which one of the following might correctly explain how this change was acomplished?

The root mean square velocity of an ideal gas in a closed container of fixed volume is increased from 5xx10^(4)cms^(-1) to 10xx10^(4)cm s^(-1) . Which of the following statements correctly explains how the change is accomplished?

The root mean square velocity of an ideal gas in a closed container of fixed volume is increased from 5xx10^(4)cms^(-1) to 10xx10^(4)cm s^(-1) . Which of the following statements correctly explains how the change is accomplished?

The root mean square velocity of an ideal gas in a closed container of a fixed volume is increased from 5 xx 10^(4) cm s^(-1) to 10 xx 10^(4) cm s^(-1) . Which of the following statements might correctly explain how the change is accomplished ?

The room mean square velocity of an ideal gas in a closed vessel of fixed volume is increased from 5xx10^(4)cm*s^(-1) to 10xx10^(4)cm*s^(-1) . Which of the following statements correctly explain how the change is accomplished-

If the u_(rms) of an ideal gas in a closed container is doubled, then which of the following statement correctly explains how the change is accomplished?

The root mean square speed of an ideal gas in a closed container of fixed volume is increased from 5*10^4cms^-1 to 10 * 10^4cm^-1 . Which statement might correctly explain how the change accomplished’?

The ratio of final to initial pressures of a gas when u_(rms) of a gas in a container is increased from 5 xx 10^(4) cm sec^(-1)" to " 10 xx 10^(4) cm sec^(-1)

The ratio of final to initial pressures of a gas when u_(rms) of a gas in a container is increased from 5 xx 10^(4) cm sec^(-1)" to " 10 xx 10^(4) cm sec^(-1)

Find energy of photon which have momentum 2 xx10^(-16) gm-cm/sec.

One gram molecule of nitrogen occupies 2 xx 10^(4) cm^(3) at a pressure of 10^(6) dyne cm ^(=-2). Given : N_(A)= 6 xx 10^(23). Which of the following is correct ?