Calculate the temperature of 4.0 mol of a gas occupying 5 `dm^(2)` at 3.32 bar
(R = 0.083 bar `dm^(3)k^(-1) mol^(-1)`)

Calculate the temperature of 4.0 mol of a gas occupying d dm^(3) at 3.32 bar. (R=0.083 bar dm^(3) K^(-1)mol^(-1)) .

The temperature of 4.0 mol of an ideal gas occupying 5dm^(3) at 3.32 bar (R="0.083 bar dm"^(3)K^(-1)"mol"^(-1)) is nxx10K . The value of n is

Calculate the temperature of 4.0 mol of a gas occupying 5 dm^(3) at 3.32 bar. Strategy : List the variables with the proper units. Then solve the ideal gas equation for T by substituting the values.

Calculate the weight of CH_(4) in a 9 cm^(3) cylinder at 16 bar and 27^(@)C (R =0.083 "bar" dm^(3) K^(-1)) .

Calculate the volume occupied by 8.8 g of CO_(2) at 31.3^(@)C and 1 bar pressure. (R = 0.083 "bar" L K^(-1) mol^(-1))

Calculate the critical temperature of a Van der Waals gas for which p_(c ) is 100 atm and b is "0.050 dm"^(3)" mol"^(-1) .

Calculate the total pressure in a mixture og 8 g of oxygen and 4 g hydrogen confined in a vessel of 1 dm^(3) at 27^(@)C . (R = 0.083 "bar" dm^(3) K^(-1) mol^(-1))