Q20.2 A. a b B. b c C. c a D. two or more of A., B., in addition to C. E. none of A.,

Q20.2 A. a  b B. b  c C. c  a D. two or more of A., B., in addition to C. E. none of A., www.phwiki.com

Q20.2 A. a b B. b c C. c a D. two or more of A., B., in addition to C. E. none of A.,

Williams, Debbie, Morning Drive Co-Host;Office Manager has reference to this Academic Journal, PHwiki organized this Journal Q20.2 A. a b B. b c C. c a D. two or more of A., B., in addition to C. E. none of A., B., or C. An ideal gas is taken around the cycle shown in this pV–diagram, from a to b to c in addition to back to a. Process b c is isothermal. Which of the processes in this cycle could be reversible A20.2 A. a b B. b c C. c a D. two or more of A., B., in addition to C. E. none of A., B., or C. An ideal gas is taken around the cycle shown in this pV–diagram, from a to b to c in addition to back to a. Process b c is isothermal. Which of the processes in this cycle could be reversible Q20.3 A. a c B. c b C. b a D. two or more of A., B., in addition to C. E. none of A., B., or C. An ideal gas is taken around the cycle shown in this pV–diagram, from a to c to b in addition to back to a. Process c b is adiabatic. Which of the processes in this cycle could be reversible

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A20.3 A. a c B. c b C. b a D. two or more of A., B., in addition to C. E. none of A., B., or C. An ideal gas is taken around the cycle shown in this pV–diagram, from a to c to b in addition to back to a. Process c b is adiabatic. Which of the processes in this cycle could be reversible Heat engines As heat flows from a reservoir at higher temperature to a sink at lower temperature, work may be removed. Even if no work is removed, maximum engine efficiencies never reach 100% in addition to depend on Th in addition to Tc . During one cycle, an automobile engine takes in 12,000 J of heat in addition to discards 9000 J of heat. What is the efficiency of this engine A. 400% B. 133% C. 75% D. 33% E. 25% Q20.4

During one cycle, an automobile engine takes in 12,000 J of heat in addition to discards 9000 J of heat. What is the efficiency of this engine A. 400% B. 133% C. 75% D. 33% E. 25% A20.4 During one cycle, an automobile engine with an efficiency of 20% takes in 10,000 J of heat. How much work does the engine do per cycle A. 8000 J B. 6400 J C. 2000 J D. 1600 J E. 400 J Q20.5 During one cycle, an automobile engine with an efficiency of 20% takes in 10,000 J of heat. How much work does the engine do per cycle A. 8000 J B. 6400 J C. 2000 J D. 1600 J E. 400 J A20.5

Analyze heat engine A gasoline engine in a truck takes in 10,000 J of heat in addition to delivers 2000 J of mechanical work per cycle. The heat is obtained by burning gasoline with heat of combustion Lc = 5.0 x 104 J/g. What is the thermal efficiency of this engine How much heat is discarded in each cycle How much gasoline is burned in each cycle If the engine goes through 25 cycles per second, what is its power output in watts The internal-combustion engine A fuel vapor can be compressed, then detonated to rebound the cylinder, doing useful work. The Otto cycle in addition to the Diesel cycle A fuel vapor can be compressed, then detonated to rebound the cylinder, doing useful work.

Refrigerators A refrigerator is essentially a heat engine running backwards. Air conditioning, the clever placement of an air conditioner The Second Law stated in practical terms You can’t make a machine that does nothing but move heat from a cold item to a hot sink.

A copper pot at room temperature is filled with room-temperature water. Imagine a process whereby the water spontaneously freezes in addition to the pot becomes hot. Why is such a process impossible A. It violates the first law of thermodynamics. B. It violates the second law of thermodynamics. C. It violates both the first in addition to second laws of thermodynamics. D. none of the above Q20.6 A copper pot at room temperature is filled with room-temperature water. Imagine a process whereby the water spontaneously freezes in addition to the pot becomes hot. Why is such a process impossible A. It violates the first law of thermodynamics. B. It violates the second law of thermodynamics. C. It violates both the first in addition to second laws of thermodynamics. D. none of the above A20.6 The Carnot Cycle A thought experiment envisioning the most efficient heat engine that might be created. Reversible processes of isothermal expansion, adiabatic expansion, isothermal compression, then finally adiabatic compression.

A Carnot engine takes heat in from a reservoir at 400 K in addition to discards heat to a reservoir at 300 K. If the engine does 12,000 J of work per cycle, how much heat does it take in per cycle A. 48,000 J B. 24,000 J C. 16,000 J D. 9000 J E. none of the above Q20.7 A Carnot engine takes heat in from a reservoir at 400 K in addition to discards heat to a reservoir at 300 K. If the engine does 12,000 J of work per cycle, how much heat does it take in per cycle A. 48,000 J B. 24,000 J C. 16,000 J D. 9000 J E. none of the above A20.7 Analysis of Carnot Cycles Follow Example 20.2 in addition to Figure 20.14. Follow Example 20.3.

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Williams, Debbie Morning Drive Co-Host;Office Manager

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