Difference between revisions of "Constant Volume Thermometer"
From UO Physics Demonstration Catalog
(Created page with "{{NewDemo|subject=Thermodynamics|topic=Ideal Gas Law|file1=Constant Volume Thermom.gif}} A hollow spherical ball has a pressure gauge mounted on it. Heating with boiling water and cooling with ice water causes pressure changes. Absolute zero can be extrapolated by plotting P vs. T. Location: Shelf F-4") |
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{{NewDemo|subject=Thermodynamics|topic=Ideal Gas Law|file1=Constant Volume Thermom.gif}} | {{NewDemo|subject=Thermodynamics|topic=Ideal Gas Law|file1=Constant Volume Thermom.gif}} | ||
A hollow spherical ball has | A hollow spherical ball has an Absolute Pressure gauge mounted on it. Heating with boiling water and cooling with ice water causes pressure changes. Absolute zero can be extrapolated by plotting P vs. T and using measure the pressure in Boiling Water, Ice Water, and an Alcohol and Dry Ice mixture (-80C). Plot the data and the Linear line intersects x axis around -270. | ||
Location: | '''Location: | ||
''' | |||
Shelf F-4 | * Shelf F-4 | ||
* | |||
Latest revision as of 15:43, 9 January 2023
Return to Ideal Gas Law
Description:
A hollow spherical ball has an Absolute Pressure gauge mounted on it. Heating with boiling water and cooling with ice water causes pressure changes. Absolute zero can be extrapolated by plotting P vs. T and using measure the pressure in Boiling Water, Ice Water, and an Alcohol and Dry Ice mixture (-80C). Plot the data and the Linear line intersects x axis around -270.
Location:
- Shelf F-4
