Consider the ideal gas law PV = kT, where k > 0 is a constant. av a.) Determine the rate of change of volume with respect to pressure aP at constant temperature. Does volume increase, decrease, or remain constant as pressure increases? av b.) Determine the rate of change of volume with respect to temperature at constant pressure. Does volume increase, decrease, or remain constant as temperature increases?

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Author:Erwin Kreyszig
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Consider the ideal gas law PV = kT, where k > 0 is a constant.
%3D
ле
aP
a.) Determine the rate of change of volume with respect to pressure
at constant temperature. Does volume increase, decrease, or
remain constant as pressure increases?
av
b.) Determine the rate of change of volume with respect to
aT
temperature at constant pressure. Does volume increase, decrease,
or remain constant as temperature increases?
Transcribed Image Text:Consider the ideal gas law PV = kT, where k > 0 is a constant. %3D ле aP a.) Determine the rate of change of volume with respect to pressure at constant temperature. Does volume increase, decrease, or remain constant as pressure increases? av b.) Determine the rate of change of volume with respect to aT temperature at constant pressure. Does volume increase, decrease, or remain constant as temperature increases?
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