(A) The work done during expansion against a constant external pressure is given by the formula:$W = -P_{ext} \times \Delta V$Given:$P_{ext} = 2 \; ba

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(A) The work done during expansion against a constant external pressure is given by the formula:$W = -P_{ext} \times \Delta V$Given:$P_{ext} = 2 \; bar$$V_{1} = 0.1 \; L$$V_{2} = 0.25 \; L$Change in volume:$\Delta V = V_{2} - V_{1} = 0.25 \; L - 0.1 \; L = 0.15 \; L$Calculating work done:$W = -2 \; bar \times 0.15 \; L = -0.30 \; bar \cdot L$Since $1 \; L \cdot bar = 100 \; J$:$W = -0.30 \times 100 \; J = -30 \; J$The work done by the gas is $-30 \; J$.

Class 11 Chemistry Thermodynamics Basic concepts

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Under isothermal condition,a gas at $300 \; K$ expands from $0.1 \; L$ to $0.25 \; L$ against a constant external pressure of $2 \; bar$. The work done by the gas is .... [Given that $1 \; L \; bar = 100 \; J$]

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A
$-30 \; J$
B
$5 \; kJ$
C
$25 \; J$
D
$30 \; J$

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Calculate $q$ when $0.75 \ mol$ of an ideal gas expands isothermally and reversibly at $27 \ ^oC$ from a volume of $15 \ L$ to $25 \ L$.
(Given $\log 5 = 0.70, \log 3 = 0.48$)
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Under isothermal condition,a gas at $300 \; K$ expands from $0.1 \; L$ to $0.25 \; L$ against a constant external pressure of $2 \; bar$. The work done by the gas is .... [Given that $1 \; L \; bar = 100 \; J$]

Similar Questions

What will be the work done on an ideal gas enclosed in a cylinder,when it is compressed by a constant external pressure,$p_{ext}$ in a single step as shown in the figure? Explain graphically.

At $61 \ K$,one mole of an ideal gas of $1.0 \ L$ volume expands isothermally and reversibly to a final volume of $10.0 \ L$. What is the work done in the expansion (in $L \ atm$)?

Find the work done on $2 \ mol$ of an ideal gas at $27^{\circ} C$ if it is compressed reversibly and isothermally from $5.05 \times 10^6 \ Nm^{-2}$ to $1.01 \times 10^5 \ Nm^{-2}$ pressure. (in $kJ$)

Which of the following is an intensive property?

Calculate $q$ when $0.75 \ mol$ of an ideal gas expands isothermally and reversibly at $27 \ ^oC$ from a volume of $15 \ L$ to $25 \ L$.(Given $\log 5 = 0.70, \log 3 = 0.48$)...... $Joule$

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Calculate $q$ when $0.75 \ mol$ of an ideal gas expands isothermally and reversibly at $27 \ ^oC$ from a volume of $15 \ L$ to $25 \ L$.
(Given $\log 5 = 0.70, \log 3 = 0.48$)
...... $Joule$