1. 0.01 kg of a certain ideal gas occupies a volume of 0.003 m³ at a pressure of 7 bar and temperature of 131°C. A. What is the gas constant? B. When the gas is allowed to expand until the pressure is 1 bar, the final volume is 0.02 m³. Calculate the final temperature in °C

1. 0.01 kg of a certain ideal gas occupies a volume of 0.003 m³ at a pressure of 7 bar and temperature of 131°C. A. What is the gas constant? B. When the gas is allowed to expand until the pressure is 1 bar, the final volume is 0.02 m³. Calculate the final temperature in °C

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Entropy

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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Hi can you please help me answer this questions? I need the clear solution thank you very much

1. 0.01 kg of a certain ideal gas occupies a volume of 0.003 m³ at a pressure of 7
bar and temperature of 131°C.
A. What is the gas constant?
B. When the gas is allowed to expand until the pressure is 1 bar, the final
volume is 0.02 m³. Calculate the final temperature in °C

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