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1.In the cylinder of an air motor, the compressed air at the beginning of an expansion cycle  has an internal energy of 500 kJ/kg and after expansion an internal energy of 150 kJ/kg. Calculate  the heat flow from or to the system, when the work done by the air during expansion is 200 kJ/kg 2. The heat loss in a certain non-flow process is 785 kJ. The internal energy increases by 522  kJ. How much work is being done?

1.In the cylinder of an air motor, the compressed air at the beginning of an expansion cycle  has an internal energy of 500 kJ/kg and after expansion an internal energy of 150 kJ/kg. Calculate  the heat flow from or to the system, when the work done by the air during expansion is 200 kJ/kg 2. The heat loss in a certain non-flow process is 785 kJ. The internal energy increases by 522  kJ. How much work is being done?

Elements Of Electromagnetics
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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1.In the cylinder of an air motor, the compressed air at the beginning of an expansion cycle 
has an internal energy of 500 kJ/kg and after expansion an internal energy of 150 kJ/kg. Calculate 
the heat flow from or to the system, when the work done by the air during expansion is 200 kJ/kg

2. The heat loss in a certain non-flow process is 785 kJ. The internal energy increases by 522 
kJ. How much work is being done?

3. In the compression stroke of an internal combustion engine the heat rejected to the cooling 
water is 45 kJ/kg and the work input is 90 kJ/kg. Calculate the change in specific internal energy 
of the working fluid stating whether it is a gain or a loss. 

4.

 

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