An ideal gas with a mass of 2 kgs is contained in a 3.2 m3 rigid container. The initial temperature is 303 K and a pressure of 150 kPa. Determine the ideal gas constant(R). Formula (PV=mRT) * 0.782 (kJ/(kg*K) O 0.792 (kJ/(kg*K) O 0.800 (kJ/(kg*K) O 0.762 (kJ/(kg*K)

An ideal gas with a mass of 2 kgs is contained in a 3.2 m3 rigid container. The initial temperature is 303 K and a pressure of 150 kPa. Determine the ideal gas constant(R). Formula (PV=mRT) * 0.782 (kJ/(kgK) O 0.792 (kJ/(kgK) O 0.800 (kJ/(kgK) O 0.762 (kJ/(kgK)

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter2: Matter And Energy

Section: Chapter Questions

Problem 17RQ: At a constant pressure, how does a volume of gas vary with respect to the absolute temperature?

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In physics, entropy means the amount of disorder or the degree of randomness associated with a thermodynamic system. The system is not self-organized when the entropy of the system is high. For instance, when a system is at an elevated temperature, its molecules are in random motion, vibrating and colliding with each other. During this scenario, the probability of finding a molecule at a particular place twice, is low. Under this circumstance, the system can be said to be in a high entropy.

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An ideal gas with a mass of 2 kgs is contained in a 3.2 m3 rigid container.
The initial temperature is 303 K and a pressure of 150 kPa. Determine the
ideal gas constant(R). Formula (PV=mRT) *
0.782 (kJ/(kg*K)
0.792 (kJ/(kg*K)
0.800 (kJ/(kg*K)
O 0.762 (kJ/(kg*K)

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