Chemistry, asked by abeerhaider4742, 1 year ago

A sample of hydrogen gas is found to occupy 906 $cm^{3}$ of volume at 300 K. Calculate the temperature at which it will occupy 500 $cm^{3}$ of volume? (Assuming amount and pressure remains constant).

Answers

Answered by Anonymous

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⭐⭐⭐⭐⭐ ANSWER ⭐⭐⭐⭐⭐
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Given informations are stated below :

V1 = 906 cm³

T1 = 300 K

V2 = 500 cm³

T2 = ?

Mentioned, pressure remains constant.

So, BY CHARLES' LAW, WE GET :

V1/T1 = V2/T2

=> 906/300 = 500/T2

=> 906 × T2 = 500 × 300

=> T2 = (500×300)/906

=> T2 = 165.56°C or 165.6°C (Approx.)

$\boxed{THE\:\:FINAL\:\:TEMPERATURE\:\:IS\:\:165.6°C}$

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⭐⭐⭐ ALWAYS BE BRAINLY ⭐⭐⭐

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afruja70: asob amar matar upor diye giyeche

Anonymous: Why?

Anonymous: Its charles' law

afruja70: asob ami jani na ( I em in cls 8th )..

Anonymous: Ooooo yuppe right

afruja70: youuuuhuu

Anonymous: (^_^)

Answered by priyankacute

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⭐⭐⭐⭐⭐ ANSWER ⭐⭐⭐⭐⭐
==================================

Given informations are stated below :

V1 = 906 cm³
T1 = 300 K
V2 = 500 cm³
T2 = ?

Mentioned, pressure remains constant.

So, BY CHARLES' LAW, WE GET :

V1/T1 = V2/T2
=> 906/300 = 500/T2
=> 906 × T2 = 500 × 300
=> T2 = (500×300)/906
=> T2 = 165.56°C or 165.6°C (Approx.)

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A sample of hydrogen gas is found to occupy 906 of volume at 300 K. Calculate the temperature at which it will occupy 500 of volume? (Assuming amount and pressure remains constant).

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A sample of hydrogen gas is found to occupy 906 $cm^{3}$ of volume at 300 K. Calculate the temperature at which it will occupy 500 $cm^{3}$ of volume? (Assuming amount and pressure remains constant).