A. Steam engine
B. Carnot engine
C. Diesel engine
D. Otto engine
Related Mcqs:
- The following heat engine produces power of 100,000 kW. The heat engine operates between 800 K and 300 K. It has a thermal efficiency equal to 50% of that of the Carnot engine for the same temperature. The rate at which heat is absorbed from the hot reservoir is____________________?
A. 100,000 kW
B. 160,000 kW
C. 200,000 kW
D. 320,000 kW - Thermal efficiency of a Carnot engine can approach 100%, only when the temperature of the__________________?
A. Cold reservoir approaches zero
B. Hot reservoir approaches infinity
C. Either A. or B
D. Neither A. nor B - Minimum thermal efficiency of a steam boiler may be around ____________________ percent ?
A. 25
B. 45
C. 65
D. 20 - Which of the following liquid metals has the highest thermal conductivity ?
A. Molten sodium
B. Molten lead
C. Mercury
D. Molten potassium - Efficiency of a Carnot engine working between temperatures T1 and T2 (T1 < T) is ________________?
A. (T2 – T1)/T2
B. (T2 – T1)/T1
C. (T1 – T2)/T2
D. (T1 – T2)/T1 - Efficiency of a heat engine working on Carnot cycle between two temperature levels depends upon the__________________?
A. Two temperatures only
B. Pressure of working fluid
C. Mass of the working fluid
D. Mass and pressure both of the working fluid - With increase in compression ratio, the efficiency of the otto engine________________?
A. Increases
B. Decreases
C. Remain constant
D. Increases linearly - The efficiency of an Otto engine compared to that of a diesel engine, for the same compression ratio will be _______________?
A. More
B. Less
C. Same
D. Data insufficient to predict - The efficiency of a Carnot heat engine operating between absolute temperatures T1 and T2 (when, T1 > T2) is given by (T1 – T2)/T1. The co-efficient of performance (C.O.P.) of a Carnot heat pump operating between T1 and T2 is given by__________________?
A. T1/(T1-T2)
B. T2/(T1-T2)
C. T1/T2
D. T2/R1 - Which of the following has the least (almost negligible) effect on the solubility of a solute in a solvent ?
A. Temperature
B. Nature of solute
C. Pressure
D. Nature of solvent