The volume of an ideal gas is 1 litre and its pressure is equal to 72cm of mercury column. The volume of gas is made

Q: The volume of an ideal gas is $1$ litre and its pressure is equal to $72cm$ of mercury column. The volume of gas is made $900\, cm^3$ by compressing it isothermally. The stress of the gas will be ...... $cm$ (mercury)

a (a)For isothermal process ${P_1}{V_1} = {P_2}{V_2}$ ==> ${P_2} = \frac{{{P_1}{V_1}}}{{{V_2}}} = \frac{{72 \times 1000}}{{900}}=80 \,cm$ Stress $\Delta P = {P_2} - {P_1} = 80 - 72 = 8cm$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The volume of an ideal gas is $1$ litre and its pressure is equal to $72cm$ of mercury column. The volume of gas is made $900\, cm^3$ by compressing it isothermally. The stress of the gas will be ...... $cm$ (mercury)

A$8$
B$7$
C$6$
D$4$

Medium

STD 11 Science
NEET
STD 11 - 11. thermodynamics
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
A gas undergoes a change at constant temperature. Which of the following quantities remain fixed?
View Solution
2
$n\, moles$ of an ideal gas undergo a process $A \to B$ as shown in the figure. Maximum temperature of the gas during the process is
View Solution
3
A gas can be taken from $A$ to $B$ via two different processes $ACB$ and $ADB$. When path $ACB$ is used $60\, J$ of heat flows into the system and $30\, J$ of work is done by the system. If path $ADB$ is used work down by the system is $10\, J$. the heat flow into the system in path $ADB$ is ..... $J$
View Solution
4
A sample of gas expands from $V_1$ to $V _2$. In which of the following, the work done will be greatest ?
View Solution
5
Find $V_B = ?$
View Solution
6
In the $P-V$ diagram, $I$ is the initial state and $F$ is the final state. The gas goes from $I$ to $F$ by $(i)\,IAF,\,\,(ii)\,IBF,\,\,(iii) ICF$. The heat absorbed by the gas is
View Solution
7
$300 \,cal$. of heat is given to a heat engine and it rejects $225 \,cal$. of heat. If source temperature is $227^{\circ} C$, then the temperature of sink will be____${ }^{\circ} C$.
View Solution
8
Carbon monoxide is carried around a closed cycle $abc$ in which bc is an isothermal process as shown in the figure. The gas absorbs $7000 J$ of heat as its temperature increases from $300 K$ to $1000 K$ in going from $a$ to $b$. The quantity of heat rejected by the gas during the process $ca$ is ..... $J$
View Solution
9
If one mole of an ideal gas goes through the process $A \rightarrow B$ and $B \rightarrow C .$ Given that $T _{ A }=400\, K ,$ and $T _{ C }=400 \,K .$ If $\frac{ P _{ B }}{ P _{ A }}=\frac{1}{5},$ then find the heat supplied to the gas (in $J$)
View Solution
10
One mole of an ideal gas at initial temperature $T$, undergoes a quasi-static process during which the volume $V$ is doubled. During the process, the internal energy $U$ obeys the equation $U=a V^3$, where $a$ is a constant. The work done during this process is
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free