310,J of heat is required to raise the temperature of 2,moles of an ideal gas at constant pressure from 25,^oC to 35,^oC . The amount

Q: $310\,J$ of heat is required to raise the temperature of $2\,moles$ of an ideal gas at constant pressure from $25\,^oC$ to $35\,^oC$ . The amount of heat required to raise the temperature of the gas through the same range at constant volume is .... $J$

b At constant pressure, Heat $=\mathrm{nC}_{\mathrm{P}} \theta$ $\Rightarrow 310=2 \times \mathrm{C}_{\mathrm{p}} \times(35-25)=20 \mathrm{C_P}$ $\Rightarrow \mathrm{C}_{\mathrm{p}}=\frac{310}{20}=15.50$ At constant volume. $\therefore \quad \mathrm{Q}_{\mathrm{v}}=\mathrm{nC}_{\mathrm{v}} \theta=\mathrm{n}\left(\mathrm{C}_{\mathrm{p}}-\mathrm{R}\right) \theta$ $=2 \times(15.50-8.3) \times(35-25)$ $=2 \times 7.2 \times 10=144 \mathrm{J}$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

$310\,J$ of heat is required to raise the temperature of $2\,moles$ of an ideal gas at constant pressure from $25\,^oC$ to $35\,^oC$ . The amount of heat required to raise the temperature of the gas through the same range at constant volume is .... $J$

A$384$
B$144$
C$276$
D$452$

Diffcult

STD 11 Science
JEE
STD 11 - 12 . kinetic theory of gases
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
Every gas (real gas) behaves as an ideal gas
View Solution
2
For a gas, the difference between the two specific heats is $4150\, J\, kg^{-1}\, K^{-1}$ and the ratio of the two specific heats is $1.4$. What is the specific heat of the gas at constant volume in units of $J\, kg^{-1}\, K^{-1}$ ?
View Solution
3
If $r.m.s.$ velocity of a gas is ${V_{rms}} = 1840m/s$ and its density $\rho = 8.99 \times {10^{ - 2}}kg/{m^3},$ the pressure of the gas will be
View Solution
4
A container of fixed volume has a mixture of one mole of hydrogen and one mole of helium in equilibrium at temperature $T$. Assuming the gases are ideal, the correct statement$(s)$ is(are)

$(A)$ The average energy per mole of the gas mixture is $2RT$.

$(B)$ The ratio of speed of sound in the gas mixture to that in helium gas is $\sqrt{6 / 5}$.

$(C)$ The ratio of the rms speed of helium atoms to that of hydrogen molecules is $1 / 2$.

$(D)$ The ratio of the rms speed of helium atoms to that of hydrogen molecules is $1 / \sqrt{2}$.
View Solution
5
A closed compartment containing gas is moving with some acceleration in horizontal direction. Neglect effect of gravity. Then the pressure in the compartment is
View Solution
6
The parameter that remains the same for molecules of all gases at a given temperature is :
View Solution
7
A mixture of $2$ moles of helium gas (atomic mass $=4 \ amu$ ), and $1$ mole of argon gas (atomic mass $=40 \ amu$ ) is kept at $300 \ K$ in a container. The ratio of the rms speeds $\left(\frac{\left. v _{ mms } \text { (helium }\right)}{ v _{\text {rms }} \text { (argon) }}\right)$ is :
View Solution
8
The relation $C_p-C_V=R\left(C_p\right.$ and $C_V$ are the molar specific heats at constant pressure and volume) is exactly true for
View Solution
9
An object is placed in a medium of refractive index $3$. An electromagnetic wave of intensity $6 \times 10^8 \mathrm{~W} / \mathrm{m}^2$ falls normally on the object and it is absorbed completely. The radiation pressure on the object would be (speed of light in free space $=3 \times 10^8 \mathrm{~m} / \mathrm{s}$ ):
View Solution
10
A narrow glass tube, $80 \,cm$ long and opens at both ends, is half immersed in mercury, now the top of the tube is closed and is taken out of mercury. A column of mercury $20 \,cm$ long remains in the tube. Find atmospheric pressure
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free