Calculate the temperature of 4-0 mol of a gas occupying 5 dmdisplaystyle -3- 3-32 bar-R - 0-083 bar dmdisplaystyle -3- Kdisplaystyle -1- moldisplaystyle -1- -

Question

Toppr Admin · Accepted Answer

From ideal gas equation-T-PVnR-3-32-xD7-54-0-xD7-0-083-50-xA0-KThus- the temperature of the gas is 50K-

Calculate the temperature of 4.0 mol of a gas occupying 5 dm $^{3}$ at 3.32 bar.
(R = 0.083 bar dm $^{3}$ K $^{- 1}$ mol $^{- 1}$ )

From ideal gas equation,

$T = \frac{P V}{n R} = \frac{3.32 \times 5}{4.0 \times 0.083} = 50 K$

Thus, the temperature of the gas is $50 K$ .

Calculate the temperature of 4.0 mol of a gas occupying 5 dm3 at 3.32 bar.(R = 0.083 bar dm3 K−1 mol−1 )

From ideal gas equation,T=PVnR=3.32×54.0×0.083=50 KThus, the temperature of the gas is 50K.

Calculate the temperature of 4.0 mol of a gas occupying 5 dm $^{3}$ at 3.32 bar.
(R = 0.083 bar dm $^{3}$ K $^{- 1}$ mol $^{- 1}$ )

From ideal gas equation,

$T = \frac{P V}{n R} = \frac{3.32 \times 5}{4.0 \times 0.083} = 50 K$

Thus, the temperature of the gas is $50 K$ .