(C) Pressure and temperature are intensive properties,which means they are independent of the amount of matter present in the system.When a vessel is

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(C) Pressure and temperature are intensive properties,which means they are independent of the amount of matter present in the system.When a vessel is divided into two equal parts,the volume of each part becomes half,but the pressure and temperature remain the same as the original system.Therefore,the pressure in each part is $P \ atm$ and the temperature is $T \ K$.

Class 11 Chemistry States of Matter Characteristics and Measurable properties of gases

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$A$ $10 \ L$ vessel contains $1 \ mole$ of an ideal gas with pressure of $P \ atm$ and temperature of $T \ K$. The vessel is divided into two equal parts. The pressure (in $atm$) and temperature (in $K$) in each part is respectively:

AP EAMCET 2024 All AP EAMCET

A
$\frac{P}{2}, \frac{T}{2}$
B
$\frac{P}{2}, T$
C
$P, T$
D
$P, \frac{T}{2}$

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States of Matter

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Characteristics and Measurable properties of gases

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$A$ $10 \ L$ vessel contains $1 \ mole$ of an ideal gas with pressure of $P \ atm$ and temperature of $T \ K$. The vessel is divided into two equal parts. The pressure (in $atm$) and temperature (in $K$) in each part is respectively:

Similar Questions

Pressure-volume $(pV)$ work done by an ideal gaseous system at constant volume is (where $E$ is internal energy of the system):

At constant volume and temperature conditions,the rate of diffusion $D_A$ and $D_B$ of gases $A$ and $B$ having densities $\rho_A$ and $\rho_B$ are related by the expression:

$80 \ mL$ of $O_2$ takes $2 \ minute$ to pass through the hole. What volume of $SO_2$ will pass through the hole in $3 \ minute$?

In a closed container,the number of oxygen and hydrogen molecules are equal at a pressure of $740 \, mm$. If oxygen is removed from the system,the pressure will be:

$A$ closed container contains a mixture of non-reacting gases $A$ and $B$. The partial pressures of $A$ and $B$ are $4.5 \ bar$ and $5.5 \ bar$ respectively. Find the mole fractions of $A$ and $B$ respectively.

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