A real gas most closely approaches ideal behavior under which of the following conditions?
Low pressure and high temperature
High pressure and low temperature
High pressure and high temperature
Low pressure and low temperature
Related Questions
There is 10 litre of a gas at STP. Which of the following changes keep the volume constant?
and
273\,\,^\circ C\,\,and\,\,2{\mkern 1mu} {\mkern 1mu} atm
546\,^\circ C\,\,and\,\,0.5{\mkern 1mu} \,{\mkern 1mu} atm
0\,^\circ C\,\,and\,\,0\,\,atm
A sample of gas atΒ 35\,^\circ C and 1 atmospheric pressure occupies a volume of . At what temperature should the gas be kept, if it is required to reduce the volume to litre at the same pressure?
- 26.6\,^\circ C
0\,^\circ C
3.98\,^\circ C
28\,^\circ C
An open vessel at 27\,^\circ CΒ is heated until 3/8th of the air in it has been expelled. Assuming that the volume remains constant, calculate the temperature at which the vessel was heated
107\,^\circ C
207\,^\circ C
Pressure remaining constant, the volume of a given sample of gas atΒ 127\,^\circ C will be doubled at:
254\,^\circ C
527\,^\circ C
800\,^\circ C
If the temperature of 500 mL of air increases from 27\,^\circ C{\mkern 1mu} {\mkern 1mu} \,\,{\rm{to}}{\mkern 1mu} \,{\mkern 1mu} 42\,^\circ C under constant pressure, then the increase in volume shall be
At what temperature will the volume of a gas atΒ 0\,^\circ C double itself, pressure remaining constant?
- 546\,^\circ C
546\,^\circ C
An open vessel at 27\,^\circ CΒ is heated until 3/8th of the air in it has been expelled. Assuming that the volume remains constant, calculate the temperature at which the vessel was heated
107\,^\circ C
207\,^\circ C
