prove that if you had a heat engine whose efficiency was better than the ideal value...

prove that if you had a heat engine whose efficiency was bettr than the ideal value...

prove that if you had a heat engine whose efficiency was bettr than the ideal value (4.5), you could hook it up to an ordinary carnot refrigerator to make a refrigerator that requires no work input

Question 3) Which one of the following statements concerning the efficiency of a Carnot heat engine...

Question 3) Which one of the following statements concerning the efficiency of a Carnot heat engine is true? A) The efficiency of an irreversible engine is typically greater than that of a reversible engine operating under the same circumstances. B) The efficiency is dependent on whether an ideal or non-ideal gas is used. C) One hundred percent efficiency is possible if the engine can be operated in reverse. D) The efficiency is not dependent on the temperatures of the hot...

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...

Increasing the temperature of the heat addition (T subscript H) in any heat engine cycle, with...

Increasing the temperature of the heat addition (T subscript H) in any heat engine cycle, with keeping all other parameters unchanged: A. None of the answers. B. Decreases the heat added at high temperature. C. Increases the thermal efficiency of the cycle. D. Decreases the thermal efficiency of the cycle. 1 points    QUESTION 2 The maximum thermal efficiency of the Rankine cycle power plant is achieved when: A. it works on Carnot heat engine cycle. B. the pump work...

At a steam power plant, steam engines work in pairs, the heat output of the first...

At a steam power plant, steam engines work in pairs, the heat output of the first one being the approximate heat input of the second. The operating temperatures of the first are 770 ∘C and 430 ∘C, and of the second 405 ∘C and 290 ∘C. A) If the heat of combustion of coal is 2.8×107J/kg2.8×107J/kg, at what rate must coal be burned if the plant is to put out 950 MWMW of power? Assume the efficiency of the engines...

At a steam power plant, steam engines work in pairs, the heat output of the first...

At a steam power plant, steam engines work in pairs, the heat output of the first one being the approximate heat input of the second. The operating temperatures of the first are 710 ∘C and 440 ∘C, and of the second 415 ∘C and 250 ∘C. A. If the heat of combustion of coal is 2.8×107J/kg, at what rate must coal be burned if the plant is to put out 960 MW of power? Assume the efficiency of the engines...

You have 1.3 moles of a fictitious ideal gas whose molar specific heat values are Cv...

You have 1.3 moles of a fictitious ideal gas whose molar specific heat values are Cv = 13.43 J/(mol·K) and Cp = 21.74 J/(mol·K). The gas is heated from T = 26.5 °C to T = 120.7 °C at a constant volume of 0.0306 m3 1. How much work is done by the gas? 2. How much thermal energy (heat) flows into the gas? 3. What is the change in the internal energy of the gas?

1. You will learn much about heat engine cycles in thermo II (if you take it),...

1. You will learn much about heat engine cycles in thermo II (if you take it), but you already have the basic skills needed to perform a rst law analysis of a simple vapor power cycle. This cycle has four basic components: steam turbine, condenser, liquid pump, and boiler, and four as- sociated processes. A speci c case of this cycle has water, in the form of a saturated vapor at 40 kPa, exiting from the turbine and entering the...

You see a person drop an envelope at a busy airport. There is a better than...

You see a person drop an envelope at a busy airport. There is a better than 85% chance that you can catch the person who dropped it, if you wanted to, but it would take a running effort by you. Because it is a busy airport, there is also the possibility that someone else also saw the envelope drop, and could see you pick it up, but they would not know what it contained. It turns out that the envelope...

You see a person drop an envelope at a busy airport. There is a better than...

You see a person drop an envelope at a busy airport. There is a better than 85% chance that you can catch the person who dropped it, if you wanted to, but it would take a running effort by you. Because it is a busy airport, there is also the possibility that someone else also saw the envelope drop, and could see you pick it up, but they would not know what it contained. It turns out that the envelope...