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6 Nov 2019
I am confused on how to do this, and need some help. I REALLYappreciate it, will rate lifesaver with a good, well explainedanswer. THANKS!
The pressure,P, volume, V, and temperature, T (in degrees Kelvin)of a confined gas are related by the Ideal Gas Law, PV=kT, where kis a constant. If P = 0.5 lbs per sq. in, V = 64 inches cubed, andT = 350 degree Kelvin, approximate the change in pressure if thevolume and temperature changge to 75 inches cubed and 335 degreesKelvin, respectively.
USE CALCULUS - PARTIAL DERIVATIVES AND DIFFERENTIALS... NOT PHYSICSEQUATIONS.
I am confused on how to do this, and need some help. I REALLYappreciate it, will rate lifesaver with a good, well explainedanswer. THANKS!
The pressure,P, volume, V, and temperature, T (in degrees Kelvin)of a confined gas are related by the Ideal Gas Law, PV=kT, where kis a constant. If P = 0.5 lbs per sq. in, V = 64 inches cubed, andT = 350 degree Kelvin, approximate the change in pressure if thevolume and temperature changge to 75 inches cubed and 335 degreesKelvin, respectively.
USE CALCULUS - PARTIAL DERIVATIVES AND DIFFERENTIALS... NOT PHYSICSEQUATIONS.
The pressure,P, volume, V, and temperature, T (in degrees Kelvin)of a confined gas are related by the Ideal Gas Law, PV=kT, where kis a constant. If P = 0.5 lbs per sq. in, V = 64 inches cubed, andT = 350 degree Kelvin, approximate the change in pressure if thevolume and temperature changge to 75 inches cubed and 335 degreesKelvin, respectively.
USE CALCULUS - PARTIAL DERIVATIVES AND DIFFERENTIALS... NOT PHYSICSEQUATIONS.
Keith LeannonLv2
29 Aug 2019