Balloon at 30* C has a volume of 222 mL. If temperature is increased to 58.1*C and pressure remains constant, what is the new volume in mL?

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Balloon at 30* C has a volume of 222 mL. If temperature is increased to 58.1*C and pressure remains constant, what is the new volume in mL?

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CelestialTwilight · Answer 1 · 2022-01-23T10:03:25+0000

To solve this problem, we can use Charles's law, which states that the volume of an ideal gas is directly proportional to its temperature when pressure is held constant.

Charles's law can be expressed as:

$V1T1=V2T2frac{{V_1}}{{T_1}} = frac{{V_2}}{{T_2}}$

where:

$V_1$ is the initial volume of the gas,
$T_1$ is the initial temperature of the gas,
$V_2$ is the final volume of the gas (which we need to find),
$T_2$ is the final temperature of the gas.

Given:

$mLV_1 = 222 , ext{mL}$
$KT_1 = 30 , degree ext{C} = 30 + 273.15 , ext{K}$

Balloon at 30* C has a volume of 222 mL. If temperature is increased to 58.1*C and pressure remains constant, what is the new volume in mL?

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