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![W-2 = 8525.695,- 1._ , -luJ 1-1.4 ay 18525.675 2 520s content of the app . 228) .4 == 8525.675 = -8525.675 -112,599.19928]](http://img.homeworklib.com/questions/0addf750-996e-11eb-a423-01509a90f80b.png?x-oss-process=image/resize,w_560)
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The following problems summarize this section: Problem 3.4 - A frictionless piston-cylinder device contains 0.2 kg...
A frictionless piston-cylinder device contains 0.2 kg of air at 100 kPa and 27°C. The air...
A frictionless piston-cylinder device contains 0.2 kg of air at 100 kPa and 27°C. The air is now compressed slowly according to the relation P Vk = constant, where k = 1.4, until it reaches a final temperature of 77°C. Sketch the P-V diagram of the process with respect to the relevant constant temperature lines, and indicate the work done on this diagram. Using the basic definition of boundary work done determine the boundary work done during the process [-7.18...
Consider a piston-cylinder device (system) that contains 0.06 m3 of air at 300 kPa and 125...
Consider a piston-cylinder device (system) that contains 0.06 m3 of air at 300 kPa and 125 ̊C. (a) If the volume of air in the device increases to 0.15 m3 while the pressure remains constant, determine the work done by the system during the process. (b) If as a result of heat transfer to the surrounding, the pressure and temperature in the device drop to 240 kPa and 55 ̊C, respectively, and the piston is held such that the volume...
A piston cylinder assembly fitted with a slowly rotating paddle wheel contains 0.13 kg of air...
A piston cylinder assembly fitted with a slowly rotating paddle wheel contains 0.13 kg of air at 300K. The air undergoes a constant pressure process to a final temp of 400K. During the process heat is transfered to the air by Q=12kJ. Assuming the ideal gas model with k=1.4 and negligible changes in kinetic and potential energy for the air, determine the work done by the paddle on the air and the work done by the air to displace the...
A piston cylinder device contains air with a volume of 0.05 m3 at 25oC and 100...
A piston cylinder device contains air with a volume of 0.05 m3 at 25oC and 100 kPa pressure. The gas is now compressed to a final temperature of 95oC at 250 kPa. This compression is polytropic and follows PVn=constant. a. Determine how much boundary work was added to the gas [in kJ] b. How much heat was added or removed from this system during this process? [in kJ]
A piston–cylinder assembly fitted with a slowly rotating paddle wheel contains 0.19 kg of air, initially...
A piston–cylinder assembly fitted with a slowly rotating paddle
wheel contains 0.19 kg of air, initially at 300 K. The air
undergoes a constant-pressure process to a final temperature of 420
K. During the process, energy is gradually transferred to the air
by heat transfer in the amount 12 kJ.
Assuming the ideal gas model with k = 1.4 and negligible
changes in kinetic and potential energy for the air, determine the
work done by the paddle wheel on the...
3.3lbm of air is contained in a piston cylinder device at 19.4psia and 76.6oF. The air...
3.3lbm of air is contained in a piston cylinder device at 19.4psia and 76.6oF. The air is compressed until the pressure reaches 81.1psia. During the process, heat is transferred from the air such that the temperature remains constant. Calculate the boundary work, in BTUs. Also, sketch this process on a P-v diagram.
A cylinder fitted with a frictionless piston contains stops arranged as shown in the following figure....
A cylinder fitted with a frictionless piston contains stops
arranged as shown in the following figure. When the piston rests on
the lower stops the volume is 0.4m3 ; when it is in contact with
the upper stops the volume is 0.6m3 . If the piston is not in
contact with the stops, it maintains a constant pressure of 200kPa
in the cylinder. Initially, the cylinder contains air at P1=150kPa
with a temperature of T1=300K. The air is then heated...
A piston-cylinder assembly fitted with a slowly rotating paddle wheel contains 0.19 kg of air, initially...
A piston-cylinder assembly fitted with a slowly rotating paddle wheel contains 0.19 kg of air, initially at 300 K. The air undergoes a constant-pressure process to a final temperature of 440 K. During the process, energy is gradually transferred to the air by heat transfer in the amount 12 kJ. Assuming the ideal gas model with k = 1.4 and negligible changes in kinetic and potential energy for the air, determine the work done by the paddle wheel on the...
A cylinder with a frictionless, movable piston like that shown in the figure, contains a quantity...
A cylinder with a frictionless, movable piston like that shown
in the figure, contains a quantity of helium gas. Initially the gas
is at a pressure of 1.00×105Pa, has a temperature of 300K, and
occupies a volume of 1.50L. The gas then undergoes two processes.
In the first, the gas is heated and the piston is allowed to move
to keep the temperature equal to 300K. This continues until the
pressure reaches 2.50×104Pa. In the second process, the gas is...
pts per question) 1. A 2 m piston cylinder device contains nitroen gas at 200 kPa...
pts per question) 1. A 2 m piston cylinder device contains nitroen gas at 200 kPa and 350K. Now heat is transferred to the nitrogen in the tank and the pressure of nitrogen rises to 900 kPa and volume is maintained at same. The boundary work done during this process is (a) 1080 kJ (b) 840 k (c)240 k 2. A heat engine receives heat from a source at 727°C and rejiects the waste heat to a sink at 27°C,...
A piston–cylinder assembly fitted with a slowly rotating paddle
wheel contains 0.19 kg of air, initially at 300 K. The air
undergoes a constant-pressure process to a final temperature of 420
K. During the process, energy is gradually transferred to the air
by heat transfer in the amount 12 kJ.
Assuming the ideal gas model with k = 1.4 and negligible
changes in kinetic and potential energy for the air, determine the
work done by the paddle wheel on the...
A cylinder fitted with a frictionless piston contains stops
arranged as shown in the following figure. When the piston rests on
the lower stops the volume is 0.4m3 ; when it is in contact with
the upper stops the volume is 0.6m3 . If the piston is not in
contact with the stops, it maintains a constant pressure of 200kPa
in the cylinder. Initially, the cylinder contains air at P1=150kPa
with a temperature of T1=300K. The air is then heated...
A piston-cylinder assembly fitted with a slowly rotating paddle wheel contains 0.19 kg of air, initially at 300 K. The air undergoes a constant-pressure process to a final temperature of 440 K. During the process, energy is gradually transferred to the air by heat transfer in the amount 12 kJ. Assuming the ideal gas model with k = 1.4 and negligible changes in kinetic and potential energy for the air, determine the work done by the paddle wheel on the...
A cylinder with a frictionless, movable piston like that shown
in the figure, contains a quantity of helium gas. Initially the gas
is at a pressure of 1.00×105Pa, has a temperature of 300K, and
occupies a volume of 1.50L. The gas then undergoes two processes.
In the first, the gas is heated and the piston is allowed to move
to keep the temperature equal to 300K. This continues until the
pressure reaches 2.50×104Pa. In the second process, the gas is...
pts per question) 1. A 2 m piston cylinder device contains nitroen gas at 200 kPa and 350K. Now heat is transferred to the nitrogen in the tank and the pressure of nitrogen rises to 900 kPa and volume is maintained at same. The boundary work done during this process is (a) 1080 kJ (b) 840 k (c)240 k 2. A heat engine receives heat from a source at 727°C and rejiects the waste heat to a sink at 27°C,...
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