The kinetic energy for 14 grams of nitrogen gas at `127^@C` is nearly (Molecular mass of nitrogen = 28 and gas constant `= 8.31 JK^(-1) "mol"^(-1)` )

The kinetic energy for 14 g of nitrogen gas at 127^(@)C is nearly (mol. Mass of nitrogen = 28 and gas constant = 8.31 J/mol K)

The kinetic enerrgy of 4 mole sof nitrogen gas at 127^(@)C is (R=2" cal "mol^(-1)K^(-1))

The total energy of 1 mol of an ideal monatomic gas at 27^(@)C is……. .

Find the kinetic energy of 1 g of nitrogen gas at 77^(@)C . Given R=8.31" J "mol^(-1)K^(-1)

The amount of heat supplied to 4xx10^(-2) kg of nitrogen at room temperature to rise its temperature by 50^(@)C at constant pressure is (Molecualr mass of nitrogen is 28 and R= 8.3 J mol^(-1)K^(-1))

What amount of heat must be supplied to 2xx10^(-2)Kg of nitrogen at room temperature to rise its temperature by 45^(@)C at constant pressure? Given molecular mass of nitrogen is 28 and R=8.3J mol e^(-1)K^(-1)

Molecular mass of a gas is 78 . Its density at 98 .^(@)C and 1 atm will be

Calculate the volume occupied by 7 grams of nitrogen gas (molar mass = 28 g)

If the average kinetic energy of a molecule of hydrogen gas at 300 K is E , then the average kinetic energy of a molecule of nitrogen gas at the same temperature is

The molor heat capacity of oxygen gas is given by the expression C_(v)=a+bT+cT^(2) where a, b and c are constants. What will be change in internal energy of 8 g of oxygen if it is heated from 200 K to 300 K at constant volume? Assume oxygen as an ideal gas. Given a = 1.2 JK^(-1)mol^(-1), b = 12.8 xx 10^(-2) JK^(-2) mol^(-1), c = 3.3 xx 10^(-7) JK^(-3)mol^(-1) . {:((1),"1000 J",(2),"950.15 J"),((3),"830.5 J",(4),"315.5 J"):}