Charles law:

$\overline{)\frac{{\mathbf{V}}_{\mathbf{1}}}{{\mathbf{T}}_{\mathbf{1}}}{\mathbf{=}}\frac{{\mathbf{V}}_{\mathbf{2}}}{{\mathbf{T}}_{\mathbf{2}}}}$

**1.**

T_{1} = 100°C + 273 = 373K

T_{2} = 2(100°C) = 200°C + 273 = 473K

A gas at 100 °C fills volume V_{0}. If the pressure is held constant, what is the volume (in terms of V_{0})

1. if the Celsius temperature is doubled and

2.if the Kelvin temperature is doubled?

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