A house is losing heat at a rate of 2300 kJ/h per °C temperature difference between...

A heat pump that supplies energy to a house at a rate of 8000 kJ/h for...

A heat pump that supplies energy to a house at a rate of 8000 kJ/h for each kW of electric power it draws. a. Determine the COP. (Points 7) b. Determine the rate of energy absorption from the outdoor air (MJ/h). (Points 8) Note: could you plz explain little about it rather than just solving it

On a winter day, a certain house has heat transfer of 4.32  108 J to the outside....

On a winter day, a certain house has heat transfer of 4.32  108 J to the outside. What is the total change in entropy due to this heat transfer alone, assuming an average indoor temperature of 23.1°C and an average outdoor temperature of 5.65°C? J/K

a A heat pump is used to maintain the inside temperature of a house at 20◦C...

a A heat pump is used to maintain the inside temperature of a house at 20◦C when the outside temper-ature is 30◦C. What is the minimum amount of work necessary to transfer 100 J of heat to the inside of the house? b The heat of combustion of gasoline is approximately 47.0 kJ/mol. If a gasoline engine operates between 1500 K and 750 K, what is the maximum height that 5.0 moles of gasoline can lift a 400 kg aircraft?

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

A heat pump is used to keep a house warm at 22∘C. A) How much work is required of the pump to deliver 3200 J of heat into the house if the outdoor temperature is 0∘C. Assume a COP of 3.0 B) How much work is required of the pump to deliver 3200 J of heat into the house if the outdoor temperature is -15∘C? Assume a COP of 3.0 Express your answer to two significant figures and include the...

Q1. You want to keep the indoor temperature of an office at 25o C. The outdoor...

Q1. You want to keep the indoor temperature of an office at 25o C. The outdoor temperature is 5o C. The heat transfer through the building’s exterior is 3 x 106 kJ. To achieve the desired indoor temperature, you are exploring three heat pumps operating between the office interior and: (i) the ground at 12o C; (ii) a pond at 10o C; and (iii) the air outside at 5o C. For each case, what is the minimum theoretical net work...

A heat pump using refrigerant-134a heats a house by using underground water at 8°C as the...

A heat pump using refrigerant-134a heats a house by using underground water at 8°C as the heat source. The house is losing heat at a rate of 64000 kJ/h. The refrigerant enters the compressor at 240 kPa and 0°C and leaves at 1.4 MPa and 80°C. The refrigerant exits the condenser at 34°C. a.)Determine the power input to the heat pump. kW b.)Determine the rate of heat absorption from the water. kW c.)Determine the increase in electric power input if...

1.A heat engine exhausts 9000 J of heat while performing 2300 J of useful work. What...

1.A heat engine exhausts 9000 J of heat while performing 2300 J of useful work. What is the efficiency of this engine? Express your answer using two significant figures. 2.A nuclear power plant operates at 68 % of its maximum theoretical (Carnot) efficiency between temperatures of 690 ∘C and 390 ∘C. If the plant produces electric energy at the rate of 1.2 GW , how much exhaust heat is discharged per hour? Express your answer using two significant figures.

The temperature difference between the inside and the outside of a home on a cold winter...

The temperature difference between the inside and the outside of a home on a cold winter day is 57.0°F. (a) Express this difference on the Celsius scale. °C (b) Express this difference on the Kelvin scale. K

Take temperatures and efficiencies to be exact. In the winter, heat from a house with an...

Take temperatures and efficiencies to be exact. In the winter, heat from a house with an inside temperature of 18 ∘C leaks out at a rate of 2.4×10^4 J/s . The outside temperature is 0∘C. 1. What is the change in entropy per second of the house? 2. What is the total change in entropy per second of the house-outside system? Thank you!!

Suppose the insulating qualities of the wall of a house come mainly from a 4.0-in. layer...

Suppose the insulating qualities of the wall of a house come mainly from a 4.0-in. layer of brick and an R-19 layer of insulation What is the total rate of heat loss through such a wall, if its total area is 160 ft2 and the temperature difference across it is 34 F∘ ? Express your answer to two significant figures and include the appropriate units.