(B) For a reversible isothermal expansion,the work done by the system is given by: $\omega = -nRT \ln \left(\frac{V_2}{V_1}\right)$.Given:$n = 1 \ mol

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(B) For a reversible isothermal expansion,the work done by the system is given by: $\omega = -nRT \ln \left(\frac{V_2}{V_1}\right)$.Given:$n = 1 \ mol$$T = 18 + 273.15 = 291.15 \ K$$V_1 = 10 \ L$$V_2 = 10 + 90 = 100 \ L$$R = 0.08206 \ L \ atm \ mol^{-1} \ K^{-1}$Substituting the values:$\omega = -1 \times 0.08206 \times 291.15 \times \ln \left(\frac{100}{10}\right)$$\omega = -23.887 \times \ln(10)$$\omega = -23.887 \times 2.303$$\omega \approx -55.01 \ L \ atm$The magnitude of work done by the system is $55 \ L \ atm$.

Class 11 Chemistry States of Matter Ideal gas equation and Related gas laws

Medium

Consider the figure provided. $1 \ mol$ of an ideal gas is kept in a cylinder,fitted with a piston,at the position $A$,at $18^{\circ} C$. If the piston is moved to position $B$,keeping the temperature unchanged,then '$x$' $L \ atm$ work is done in this reversible process. $x=$ . . . . . . $L \ atm$. (nearest integer) [Given : Absolute temperature $=^{\circ} C + 273.15$,$R=0.08206 \ L \ atm \ mol^{-1} \ K^{-1}$]

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A
$50$
B
$55$
C
$60$
D
$65$

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States of Matter

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Ideal gas equation and Related gas laws

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The vapors of $1 \ g$ of an element occupy $2.5625 \ L$ exerting a pressure of $0.5 \ atm$ at $1000 \ K$. What is the molar mass (in $g \ mol^{-1}$) of the element? (Assume vapors follow ideal gas equation. Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$)

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What is the relationship between the mass and volume of a gas?

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If $28 \ g$ of $N_2$ gas occupies a volume of $10 \ L$ at a pressure of $2.46 \ atm$,the temperature will be ......... $K$.

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State Charles' law in brief.

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At $0\, ^\circ C$ and $1\, \text{atm}$ pressure,a gas occupies $100\, \text{cc}$. If the pressure is increased to $1.5$ times and the temperature is increased by one-third of its absolute temperature,then the final volume of the gas will be :- $cc$

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The vapors of $1 \ g$ of an element occupy $2.5625 \ L$ exerting a pressure of $0.5 \ atm$ at $1000 \ K$. What is the molar mass (in $g \ mol^{-1}$) of the element? (Assume vapors follow ideal gas equation. Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$)

What is the relationship between the mass and volume of a gas?

If $28 \ g$ of $N_2$ gas occupies a volume of $10 \ L$ at a pressure of $2.46 \ atm$,the temperature will be ......... $K$.

State Charles' law in brief.

At $0\, ^\circ C$ and $1\, \text{atm}$ pressure,a gas occupies $100\, \text{cc}$. If the pressure is increased to $1.5$ times and the temperature is increased by one-third of its absolute temperature,then the final volume of the gas will be :- $cc$

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