In a Carnot process, the initial heat of a system is 50 J, and 300 K....

a) During a hypothetical process, the entropy of a system increases by 105 J/K while the...

a) During a hypothetical process, the entropy of a system increases by 105 J/K while the entropy of the surroundings decreases by 95 J/K. Is the process spontaneous? Is the process reversible? b) What happens if the opposite process occurs, i.e. entropy of the system dcreases by 105 J/K and the entropy of the surroundings increases by 95 J/K?

A Carnot heat engine receives 15 kW of heat at 1200 K and rejects heat at...

A Carnot heat engine receives 15 kW of heat at 1200 K and rejects heat at 300 K.   The power produced from the engine is used to drive a reversed Carnot cycle, acting as a refrigerator, where the low temperature is 260 K and the high temperature is 300 K. What is the cooling effect, the amount of heat removed at 260 K, and what is the COPc ? Ans:  6.5     73.125 kW

Consider two blocks. The initial temperature of block 1 is 280 K and the initial temperature...

Consider two blocks. The initial temperature of block 1 is 280 K and the initial temperature of block 2 is 340 K. The heat capacities of blocks 1 and 2 are 400 J/K and 200 J/K, respectively. A. The two blocks are placed in thermal contact with one another but are perfectly insulated from the remainder of their surroundings. We will call the process that begins when the blocks are brought in contact with one another process A. Determine the...

260 J of heat is added to a system, and the system dies 486 J of...

260 J of heat is added to a system, and the system dies 486 J of work on the surroundings. what is the change in the internal energy of the system, in J?

An ideal heat pump is used to heat a room that is at 300 K. The...

An ideal heat pump is used to heat a room that is at 300 K. The outdoor temperature is 263 K. Recall that for a heat pump, ???????? = ?? ??−?? . a. If the ? = 300 J, calculate the heat pumped into the room. (2 pts) ?? =______________ J b. Calculate the heat extracted from the outside air. (1 pts) ?? = _____________J c. Calculate the entropy change in the outside air. (2 pts) Δ???? = ____________ J/K...

A Carnot heat engine receives heat at 800 K and rejects heat to the environment at...

A Carnot heat engine receives heat at 800 K and rejects heat to the environment at 325 K. The entire work output from the heat engine is used to drive the Carnot refrigerator that removes heat from the cold space kept at -18 C at a rate of 275 kJ/min and rejects it to the same environment at 325 K. Determine the following: 1. The Carnot Coefficient of Performance for the refrigeration cycle 2. The Carnot efficiency for the Heat...

A system initially has an internal energy E of 501 J. It undergoes a process during...

A system initially has an internal energy E of 501 J. It undergoes a process during which it releases 111 J of heat energy to the surroundings, and does work of 222 J. What is the final energy of the system, in J?

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?

Find the change in internal energy of a system if 75 J of heat is transferred...

Find the change in internal energy of a system if 75 J of heat is transferred to it, and the system does 45 J of work on the surroundings. If there is no change of state, what happens to the temperature.

1A: During a process, 28 J of heat are transferred into a system, while the system...

1A: During a process, 28 J of heat are transferred into a system, while the system itself does 14 J of work. What is the change in the internal energy of the system?    __________ J 1B: If the internal energy of an ideal gas increases by 170 J when 250 J of work are done to compress it, how much heat is released?    __________ J 1C: It takes 270 cal to raise the temperature of a metallic ring...