CUTF-8 U+6211 U+662F wrote:All right :) What's the constant pressure molar heat capacity of an ideal diatomic gas?
That's probably not what you're looking for, but it is technically correct...
CUTF-8 U+6211 U+662F wrote:All right :) What's the constant pressure molar heat capacity of an ideal diatomic gas?
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What's the value of CThings2do wrote:CUTF-8 U+6211 U+662F wrote:All right What's the constant pressure molar heat capacity of an ideal diatomic gas?
That's probably not what you're looking for, but it is technically correct...
Oops, it's Cp, not C.UTF-8 U+6211 U+662F wrote:What's the value of CThings2do wrote:CUTF-8 U+6211 U+662F wrote:All right :) What's the constant pressure molar heat capacity of an ideal diatomic gas?
That's probably not what you're looking for, but it is technically correct...
See Wiki
...What's the value of Cp thenThings2do wrote:Oops, it's Cp, not C.UTF-8 U+6211 U+662F wrote:What's the value of CThings2do wrote: C
That's probably not what you're looking for, but it is technically correct...
I don't remember a numerical value... I remember equations existing, but I don't remember how to do 'em... It's summer.
5/2R for a monatomic gas and 7/2R for a diatomic gas.UTF-8 U+6211 U+662F wrote:...What's the value of Cp thenThings2do wrote:Oops, it's Cp, not C.UTF-8 U+6211 U+662F wrote: What's the value of C
I don't remember a numerical value... I remember equations existing, but I don't remember how to do 'em... It's summer.
Yep your turnJustin72835 wrote:5/2R for a monatomic gas and 7/2R for a diatomic gas.UTF-8 U+6211 U+662F wrote:...What's the value of Cp thenThings2do wrote: Oops, it's Cp, not C.
I don't remember a numerical value... I remember equations existing, but I don't remember how to do 'em... It's summer.
A glass bulb of volume 300 cubic centimeters is connected to another of volume 200 cubic centimeters by means of a tube of negligible volume. The bulbs contain dry air and are both at a common temperature and pressure of 20 degrees Celcius and 1.000 atm. The larger bulb is immersed in steam at 100 degrees Celcius and the smaller bulb is immersed in melting ice at 0 degrees Celcius. What is the final common pressure?UTF-8 U+6211 U+662F wrote: Yep your turn
Justin72835 wrote:A glass bulb of volume 300 cubic centimeters is connected to another of volume 200 cubic centimeters by means of a tube of negligible volume. The bulbs contain dry air and are both at a common temperature and pressure of 20 degrees Celcius and 1.000 atm. The larger bulb is immersed in steam at 100 degrees Celcius and the smaller bulb is immersed in melting ice at 0 degrees Celcius. What is the final common pressure?UTF-8 U+6211 U+662F wrote: Yep your turn
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