360078 Assertion :
On reducing the volume of a gas at constant temperature, the pressure of the gas increases.
Reason :
At constant temperature, according to Boyle's law, volume is inversely proportional to pressure.

360079 Volume pressure and temperature of an ideal gas are \(V, P\) and \(T\) respectively. If mass of its molecule is \(m_{0}\), then its density is \((k=\) boltzmann's constant)

360080 At constant temperature on increasing the pressure of a gas by \(5 \%\) its volume will decrease by

360081 A glass container encloses a gas at a pressure of \({8 \times 10^{5} {~Pa}}\) and \(300\,K\) temperature. The container walls can bear a maximum pressure of \({10^{6} {~Pa}}\). If the temperature of container is gradually increased, the temperature at which container will break is

360078 Assertion :
On reducing the volume of a gas at constant temperature, the pressure of the gas increases.
Reason :
At constant temperature, according to Boyle's law, volume is inversely proportional to pressure.

360079 Volume pressure and temperature of an ideal gas are \(V, P\) and \(T\) respectively. If mass of its molecule is \(m_{0}\), then its density is \((k=\) boltzmann's constant)

360080 At constant temperature on increasing the pressure of a gas by \(5 \%\) its volume will decrease by

360081 A glass container encloses a gas at a pressure of \({8 \times 10^{5} {~Pa}}\) and \(300\,K\) temperature. The container walls can bear a maximum pressure of \({10^{6} {~Pa}}\). If the temperature of container is gradually increased, the temperature at which container will break is

360078 Assertion :
On reducing the volume of a gas at constant temperature, the pressure of the gas increases.
Reason :
At constant temperature, according to Boyle's law, volume is inversely proportional to pressure.

360079 Volume pressure and temperature of an ideal gas are \(V, P\) and \(T\) respectively. If mass of its molecule is \(m_{0}\), then its density is \((k=\) boltzmann's constant)

360080 At constant temperature on increasing the pressure of a gas by \(5 \%\) its volume will decrease by

360081 A glass container encloses a gas at a pressure of \({8 \times 10^{5} {~Pa}}\) and \(300\,K\) temperature. The container walls can bear a maximum pressure of \({10^{6} {~Pa}}\). If the temperature of container is gradually increased, the temperature at which container will break is

360078 Assertion :
On reducing the volume of a gas at constant temperature, the pressure of the gas increases.
Reason :
At constant temperature, according to Boyle's law, volume is inversely proportional to pressure.

360079 Volume pressure and temperature of an ideal gas are \(V, P\) and \(T\) respectively. If mass of its molecule is \(m_{0}\), then its density is \((k=\) boltzmann's constant)

360080 At constant temperature on increasing the pressure of a gas by \(5 \%\) its volume will decrease by

360081 A glass container encloses a gas at a pressure of \({8 \times 10^{5} {~Pa}}\) and \(300\,K\) temperature. The container walls can bear a maximum pressure of \({10^{6} {~Pa}}\). If the temperature of container is gradually increased, the temperature at which container will break is