A spherical vessel of radius r = 5 cm contains hydrogen `(H_2)` at a temperature T=300 K and pressure`p =10^5` Pa. How many molecules collide on the vessel in 1 s ?

A closed vessel of volume 0.2m^3 contain hydrogen gas at temperature 300 K and pressure 10^5 Pa . Then the heat required to raise temperature to 600 K is:(molar heat capacity of hydrogen at constant volume is 5 cal//mol-K )

A vessel contains X number of molecule of hydrogen gas at a certain temperature and pressure. How many molecules of oxygen will be present in a vessel of same volume under the same conditions of temperature and pressure? Name the law to justify your answer.

Solve A vessel contains X number of molecules of hydrogen gas at a certain temperature and pressure. How many molecules of nitrogen gas would be present in the same vessel under the same conditions of temperature and pressure ?

A vessel of volume 0.2 m^(3) contains hydrogen gas at temperature 300 K and pressure 1 bar. Find the heat required to raise the temperature to 400 K. The molar heat capacity of hydrogen at constant volume is 5 cal//mol K .

A vessel of capacity 600 "cm"^3 contains hydrogen gas at a pressure of 304 cm Hg. What will be the pressure of hydrogen gas, when the vessel is connected to another vessel of 300 "cm"^3 capacity ?

Three closed rigid vessels, A, B and C, which initially contain three different gases at different temperatures are connected by tube of negligible volume, without any energy transfer with surroundings. The vessel A contain 2 mole Ne gas, at 300 K, vessel 'B' contain 2 mole SO_(2) gas at 400 K and vessel 'C' contain 3 mole CO_(2) gas at temperature 500 K. What is the final pressure (in atm) attained by gases when all valves of connecting three vessels are opened and additional 15.6 kcal hear supplied to vessels through valve. The volume of A, B and C vessel is 2, 2 and 3 litre respectively Given :R =2 calorie/mol-K, C_(v)(Ne)=3//2R,C_(v)(CO)=5//2R and C_(v)(SO_(2))=3R

A vessel contains a mixtrue consisting of m_(1) = 7g of nitrogen M_(1) = 28 and m_(2) = 11 g of carbon dioxide (M_(2) 44) at temperature T = 300 K and pressure p_(0) = 1 atm. Find the density of the mixture.

A vessel of capacity 600 cm contains hydrogen A vessel of capacity 600 cm^3 contains hydrogen be the pressure of hydrogen gas, when the vessel is connected to another vessel of 300 cm^3

A closed vessel A having volume V contains N_(2) at pressure P and temperature T. another closed vessel B having the same volume V contains. He at the same pressure P. but temperature 2T. The ratio of masses of N_(2) and He in the vesses A and B is

Vessel A contains an ideal gas at a pressure 5xx10^(5) Pa and is connected with a heat source which maintains its temperature at 300 K . Another vessel B which has four time greater inner volume contains the same gas at a pressure 10^(5) Pa and is connected to a heat source which maintains its temperature at 400 K . What will be the pressure of entire system if two vessels are connected by a narrow tube tap:-