How much work must be done by a Carnot refrigerator to transfer 1.00 J as heat...

A refrigerator with a coefficient of performance of 1.70 absorbs 3.60×104 J of heat from the...

A refrigerator with a coefficient of performance of 1.70 absorbs 3.60×104 J of heat from the low-temperature reservoir during each cycle. How much mechanical work is required to operate the refrigerator for a cycle? How much heat does the refrigerator discard to the high-temperature reservoir during each cycle?

A certain refrigerator requires 35 J of work to remove 190 J of heat from its...

A certain refrigerator requires 35 J of work to remove 190 J of heat from its interior. (a) What is its coefficient of performance? (b) How much heat is ejected to the surroundings at 16 °C? J (c) If the refrigerator cycle is reversible, what is the temperature inside the refrigerator? °C

A refrigerator has a coefficient of performance of K=2.1. Each cycle, it absorbs 3.45×104 J of...

A refrigerator has a coefficient of performance of K=2.1. Each cycle, it absorbs 3.45×104 J of heat from the cold reservoir. The refrigerator is driven by a Carnot engine that has an efficiency of e=0.5. 1.During each cycle, how much heat flows into the Carnot engine? Express your answer in joules to three significant figures.

The inside of a Carnot refrigerator is maintained at a temperature of 277 K, while the...

The inside of a Carnot refrigerator is maintained at a temperature of 277 K, while the temperature in the kitchen is 305 K. Using 3027 J of work, how much heat can this refrigerator remove from its inside compartment? |QC| =

6–100 A refrigerator operating on the reversed Carnot cycle has a measured work input of 200...

6–100 A refrigerator operating on the reversed Carnot cycle has a measured work input of 200 kW and heat rejection of 2000 kW to a heat reservoir at 278C. Determine the cooling load supplied to the refrigerator, in kW, and the temperature of the heat source, in °C. Answers: 1800 kW, 23°C.

A refrigerator takes in 20.0 J of work and exhausts 50.0 J of heat. What is...

A refrigerator takes in 20.0 J of work and exhausts 50.0 J of heat. What is its coefficient of performance? (b) If this refrigerator operates between 275. K and 300. K, what is the maximum COP? Is this a realistic system? Explain why or why not.

A heat pump is used to keep a house warm at 22∘C. How much work is...

A heat pump is used to keep a house warm at 22∘C. How much work is required of the pump to deliver 3000 J of heat into the house if the outdoor temperature is 0∘C. Assume a COP of 3.0 How much work is required of the pump to deliver 3000 J of heat into the house if the outdoor temperature is -15∘C? Assume a COP of 3.0 How much work is required of the pump to deliver 3000 J...

A Carnot refrigerator transfers heat from its inside (5.63 oC) to the room air outside (22.0...

A Carnot refrigerator transfers heat from its inside (5.63 oC) to the room air outside (22.0 oC). (a) Find the coefficient of performance of the refrigerator. (b) Determine the magnitude of the minimum work needed to cool 5.84 kg of water from 22.0 to 5.63 oC when it is placed in the refrigerator.

A heat engine draws in 6720 J of heat and expels 3150 J of work. a)...

A heat engine draws in 6720 J of heat and expels 3150 J of work. a) Find the heat expelled from the heat engine. b) Calculate the efficiency of the heat engine. c) If this heat engine was a Carnot device with a low temperature of 318 K, what would be the high temperature?

Chapter 16 Part 2: Question 16.3 An ideal Carnot engine takes 2000 J of heat from...

Chapter 16 Part 2: Question 16.3 An ideal Carnot engine takes 2000 J of heat from a reservoir at 500 K, does some work, and discards some heat to a reservoir at 350 K. Let’s see what happens if the Carnot engine described is run backward as a refrigerator.What is its performance coefficient? SOLUTION SET UP AND SOLVE We know that a refrigerator will act like an engine but with the signs for QH, QC, and Wreversed because the cycle...