(C) According to Boyle's Law, at constant temperature, $P_1V_1 = P_2V_2$. Given: $P_1 = 2 \,atm$, $V_1 = V$, $V_2 = \frac{V}{4}$. Substituting the val

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(C) According to Boyle's Law, at constant temperature, $P_1V_1 = P_2V_2$. Given: $P_1 = 2 \,atm$, $V_1 = V$, $V_2 = \frac{V}{4}$. Substituting the values: $2 \times V = P_2 \times \frac{V}{4}$. $P_2 = 2 \times 4 = 8 \,atm$. The final pressure is $8 \,atm$. The increase in pressure $= P_2 - P_1 = 8 \,atm - 2 \,atm = 6 \,atm$.

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

Easy

$A$ gas is present at a pressure of $2 \,atm$. What should be the increase in pressure, so that the volume of the gas can be decreased to $\frac{1}{4}$ of the initial volume at constant temperature (in $\,atm$)?

TS EAMCET 2020 All TS EAMCET

A
$2$
B
$4$
C
$6$
D
$8$

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Ideal gas equation and Related gas laws

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$A$ gas is present at a pressure of $2 \,atm$. What should be the increase in pressure, so that the volume of the gas can be decreased to $\frac{1}{4}$ of the initial volume at constant temperature (in $\,atm$)?

Similar Questions

Under what conditions will a pure sample of an ideal gas not only exhibit a pressure of $1 \, atm$ but also a concentration of $1 \, mol \, L^{-1}$ $(R = 0.082 \, L \, atm \, mol^{-1} \, K^{-1})$?

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

The following graph illustrates:

The volume of a given mass of a gas is directly proportional to its Kelvin temperature at constant pressure. The above statement is known as . . . . . .

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