Given the values of the two principal sp...

Given the values of the two principal specific heats, `S_P=3400` `cal` `kg^-1 K^-1` and `S_v=2400` `cal` `kg^-1 K^-1` for the hydrogen gas, find the value of J if the universal gas constant `R = 8300` `J` `kg^-1 K^-1`.

Topper's Solved these Questions

Kinetic Theory of Gases and Radiation
CHETANA PUBLICATION|Exercise Exercise|110 Videos
Electrostatics
CHETANA PUBLICATION|Exercise Exercise|73 Videos
Magnetic Fields due to Electric Current
CHETANA PUBLICATION|Exercise Exercise|96 Videos

Similar Questions

Explore conceptually related problems

The difference between the two molar specific heats of a gas is 8000 J kg^-1 K^-1 . If the ratio of the two specific heats is 1.65. Calculate the two molar specific heats.

The principal specific heat of hydrogen gas at constant pressure and at constant volume are 3400 cal/kg^@ K and 2400 cal/kg ^@K respectively. Then the value of J will be (R= 8300 J/kmol ^@K, mol wt of H_2 = 2)

The ratio of molar specific heats of certain gas is 1.4, if molar specific heat of gas at constant volume is 4.965 K cal//K mole K , find universal gas constant.

If the difference between the principal specific heat of nitrogen is 300 J/kg ^@ K and ratio of specific heat is 1.4 then c_v will be

The ratio of specific heats of a gas is 1.4. If the specific heat at constant volume is 4.82 kcal/kmol K. Find universal gas constant.

For one mole of an ideal gas the slope of V versus T curve at constant pressure of 2 atm is X lit mol^(-1) K^(-1) . The value of the ideal universal gas constant ‘R’ in terms of X is_________

The volume of 1 kilomole of an ideal gas increases isothermally from 1 litre to 10 litres at 27^@C . If the universal gas constant is 8312 Jkmol^(-1)K^(-1) , calculate the work done.

For one mole of an ideal gas the slope of V versus T curve at constant pressure of 2 atm is X lit mol^(-1) K^(-1) . The value of the ideal universal gas constant 'R' in terms of X is "___________" .

CHETANA PUBLICATION-Kinetic Theory of Gases and Radiation-Exercise

Given the values of the two principal specific heats, SP=3400 cal kg^-...
Text Solution
|
16 gm of oxygen occupied 0.025 m^3 at 27^@C. It the universal gas cons...
Text Solution
|
A cylinder filled with hydrogen gas at 500 K exerts a pressure of 4 at...
Text Solution
|
The velocities of three molecules of a gas are 2m//s,3m//s and 4 m//s,...
Text Solution
|
Calculate the R.M.S. velocity of helium at temperature 0^@C (density o...
Text Solution
|
At what temperature can the R.M.S. velocity of gas be three times its ...
Text Solution
|
Calculate the number of molecules in one litre of gas at N.T.P., if ma...
Text Solution
|
Find the mass of 10c.c of gas at N.T.P. if RMS.velocity of gas molecul...
Text Solution
|
Find the KE per kg of nitrogen molecule at 127^@C (molecular weight of...
Text Solution
|
Calculate the R.M.S. velocity of oxygen molecule at N.T.P., if the den...
Text Solution
|
If the R.M.S. velocity of oxygen molecules at N.T.P. is 460 m//s, dete...
Text Solution
|
The ratio of molar specific heats of certain gas is 1.4, if molar spec...
Text Solution
|
Compare the R.M.S. velocity of hydrogen molecules at 400 K with R.M.S....
Text Solution
|
Radiant energy is incident on the body at a rate of 1500 J//min. If co...
Text Solution
|
Radiant energy is incident on the body at a rate of 1500 J//min. If co...
Text Solution
|
Radiant energy is incident on the body at a rate of 1500 J//min. If co...
Text Solution
|
A metal cube of each side 0.05 m long emits 0.6k cal in 80 seconds, Ca...
Text Solution
|
The emissive power of sphere of area 0.02 m^2 is 0.5 kcal//s-m^2. What...
Text Solution
|
The coefficient of absorption of a surface is 0.6. When radiant energy...
Text Solution
|
Assuming that the sun radiates as a black body, calculate the energy r...
Text Solution
|
The temperature of the filaments of a 100W electric lamp is 2727^@C. T...
Text Solution
|