Two flasks `A` and `B` have equal volume. `A` is maintained at `300 K` and `B` at `600 K`. While `A` contains `H_(2)` gas, `B` has an equal mass of `CH_(4)` gas. Assuming ideal behaviours for both the gases, answer the following:
Flask with greater molar kinetic energy

Two flasks A and B have equal volume. A is maintained at 300 K and B at 600 K . While A contains H_(2) gas, B has an equal mass of CH_(4) gas. Assuming ideal behaviours for both the gases, answer the following: Flask in which pressure is higher

Two flasks A and B have equal volume A is maintained at 300 K and B at 600 K . While A contains H_(2) gas, B has an equal mass of CH_(4) gas. Assuming ideal behaviours for both the gases, answer the following: Flask in which molecules are moving faster

Two flasks A and B have equal volume. A is maintained at 300 K and B at 600 K . While A contains H_(2) gas, B has an equal mass of CH_(4) gas. Assuming ideal behaviours for both the gases, answer the following: Flask in which the compressibility factor is greater

Two flasks A and B have equal volumes. A is maintained at 300 K and B at 600 K. A contains H_(2) gas, B has an equal mass of CO_(2) gas. Find the ratio of total K.E. of gases in flask A to that of B.

Two flasks ‘A’ and B’ have equal volumes. Flask ‘A’ contains H_(2) and is maintained at 300 K while ‘B’ contains equal mass of CH_(4) gas and is maintained at 600 K. Which flask contains greater number of molecules? How many times more?

Two flasks A and B have equal volume. Flask A contains hydrogen at 300 K while flask B has an equal mass of CH_(4) at 600 K. which flask contains larger number of molecules? b. In which flask is the pressure greater and by how many times?

Two flasks A and B have equal volume at 100 K and 200 K and have 4 atm and 1 atm pressures, respectively. The flasks A contains H_(2) gas and B contains CH_(4) gas. The collision diameter of CH_(4) is twice that of H_(2) .Which of the following is true about the mean free path (lambda) of the molecules? ( a ) lambda of H_(2) is twice that of CH_(4) . ( b ) lambda of CH_(4) is twice that of H_(2) . ( c ) lambda of H_(2) is four times that of CH_(4) . ( d ) lambda of CH_(4) is four times that H_(2) .

Two flasks A and B have equal volumes. Flask A containing H_(2) gas is maintained at 27^(@)C while B containing an equal mass of C_(2)H_(6) gas is maintained at 627^(@)C . In which flask and by how many times are molecules moving faster, assuming ideal behaviour for both the gases?

Two flask A and B have equla volumes.Flask A contains hydrogen at 600 K while flask B has same mass of CH_4 at 300 K.Then choose the correct options.

Two flask A and B of equal volumes maintained at temperature 300K and 700K contain equal mass of He(g) and N_(2)(g) respectively. What is the ratio of total translational kinetic energy of gas in flask A to that of flask B ?