(C) The ideal gas equation is given by $PV = nRT$. Since concentration $C = \frac{n}{V}$,we can rewrite the equation as $P = CRT$. Therefore,$C = \fra

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(C) The ideal gas equation is given by $PV = nRT$. Since concentration $C = \frac{n}{V}$,we can rewrite the equation as $P = CRT$. Therefore,$C = \frac{P}{RT}$. Substituting the given values: $C = \frac{16.4 \ atm}{0.082 \ L \ atm \ mol^{-1} \ K^{-1} \times 200 \ K}$. $C = \frac{16.4}{16.4} = 1.00 \ mol \ L^{-1}$.

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

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An ideal gas $(X)$ present in a vessel of volume $V \ L$ exerted a pressure of $16.4 \ atm$ at $200 \ K$. What is its concentration in $mol \ L^{-1}$? (Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$)

AP EAMCET 2023 All AP EAMCET

A
$0.5$
B
$0.25$
C
$1$
D
$1.5$

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Class 11

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States of Matter

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Ideal gas equation and Related gas laws

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An ideal gas $(X)$ present in a vessel of volume $V \ L$ exerted a pressure of $16.4 \ atm$ at $200 \ K$. What is its concentration in $mol \ L^{-1}$? (Given $R=0.082 \ L \ atm \ mol^{-1} \ K^{-1}$)

Similar Questions

Which one of the following indicates the correct value of the gas constant $R$?

An ideal gas on isothermal reversible compression from $10 \ L$ to $5 \ L$ performs $1730 \ J$ of work at $300 \ K$. Calculate the number of moles of gas involved in the compression? $(R = 8.314 \ J \ K^{-1} \ mol^{-1})$

At a given temperature,the density of an ideal gas is proportional to $(P = \text{pressure of ideal gas})$

The density of oxygen gas at $5 \text{ atm}$ and $127^{\circ} C$ will be (in $\text{ g/L}$)

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

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