In a very good vacuum system in the laboratory, the vacuum attained was `10^-13 atm`. If the temperature of the system was `300 K`, the number of molecules present in a volume of `1 cm^3` is.

Achamber containijng a gas was evacuated till the vacuum attained was 10^(-14) m of Hg. If the temperature of the chamber was 30^(@)C, the number of molecules that remains in it per cubic metre is

Modern vacuum pumps permit to pressures down to p = 4.10^-15 atm to be reached at room temperatures. Assuming that the gas exhausted is nitrogen, find the number of its molecules per 1 cm^3 and the mean distance between them at this pressure.

The lowest pressure (the best vacuum) that can be created in laboratory at 27^(@)C is 10^(-11)mm of Hg. At this pressure,the number of ideal gas molecules per cm^(3) will be :

The highest vacuum attained so far is of the order of 10^(-11) mm of mercury. How many molecules are there in 1 cc of a vessel under such a high vacuum at 0^(@)C ?

Calculate the number of molecules of carbon dioxide present in 300 mL of gas at 273K and 2.5 atm pressure.

Pressure of monoatomic gas in a container is 2 atm. Average KE per molecule is 2 x 10-9J. Volume of gas is 1litre. Find number of molecules of gas present in the container