Tag: option b: engineering physics

Questions Related to option b: engineering physics

What is the function of the evaporator in a refrigerator?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. The evaporator supplies the heat to the substance, which is to be cooled.

  2. The evaporator absorbs the heat from the atmosphere.

  3. The evaporator absorbs the heat from the substance, which is to be cooled.

  4. Both a and b

Show answer
Correct Option: C
Explanation:
Evaporator is an important component together with other major components in a refrigeration system such as compressor, condenser and expansion device. The reason for refrigeration is to remove heat from air, water or other substance.

It is here that the liquid refrigerant is expanded and evaporated. It acts as a heat exchanger that transfers heat from the substance being cooled to a boiling temperature.

Which of the following is not the component of heat pump?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. Condenser

  2. Compressor

  3. Cooler

  4. Expansion valve

Show answer
Correct Option: C
Explanation:

A heat pump is a device that transfers heat energy from a source of heat to what is called a "heat sink". Heat pumps move thermal energy in the opposite direction of spontaneous heat transfer, by absorbing heat from a cold space and releasing it to a warmer one. A heat pump uses a small amount of external power to accomplish the work of transferring energy from the heat source to the heat sink,there are four main components of heat pump: compressor, condenser, expansion valve and evaporator

What is most commonly used as the refrigerant  in heat pumps?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. Chlorofluorohydrocarbons

  2. Fluorine gas

  3. Hydrogen gas

  4. Carbon gas

Show answer
Correct Option: A
Explanation:

A refrigerant is generally a fluid , which undergoes state change , from liquid to gas and back again . Chlorofluorohydrocarbons are most commonly used  as refrigerant in heat pumps . 

An ideal refrigerator operates according to the reverse Carnot cycle and transmits heat from a cold source with water at a temperature of $27^{\circ}C$ to a boiler with water at a temperature of $100^{ \circ  }C$. What amount of water must be frozen in the cooler to convert 1 kg of water into vapor in the boiler ?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. 4.94 kg

  2. 3.24 kg

  3. 5.63 kg

  4. 2.12 kg

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Correct Option: A

Find coefficient of performance, If in a mechanical refrigerator, the lower temperature coils of evaporator are $-23^oC$ compressed gas in condenser has a temperature of $77^oC$. The coefficient of performance is 

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. $70\%$

  2. $20\%$

  3. $0.23\%$

  4. $2.5\%$

Show answer
Correct Option: C

A reversible engine operates between temperatures 900 K & $T _2$($T _2$ < 900 K), & another reversible engine between $T _2$ & 400 K ($T _2$ > 400 K) in series. What is the value of $T _2$ if work outputs of both the engines are equal?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. 600K

  2. 625K

  3. 650K

  4. 675K

Show answer
Correct Option: C
Explanation:
Output work  $W = \Delta T$
Thus for equal work output, temperature difference should be equal.
$900-T _2=T _2-400$
Or  $2T _2 = 1300$ 
$\implies$ $T _2=650 \ K$

A carnot cycle is having maximum efficiency because

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. it comprises of two adiabatic process which requires no heat in its execution.

  2. it comprises of two isothermal process.

  3. its every process is reversible

  4. none of the above

Show answer
Correct Option: C
Explanation:
Carnot cycle consists of 4 process. All of them are ideal and practically not possible.

1.Isothermal heat addition- Nothing can be more efficient than this heating since no finite temperature difference exists between heat source and receiver. Hence it is a reversible process and most efficient,

2.Isentropic(reversible adiabatic) expansion- Most efficient expansion, as no heat loss is taking place, full energy is utilised only for expansion and thereby doing work.

3.Isothermal heat rejection- Most efficient heat rejection to a heat sink at same temperature.

4.Isentropic compression- Compressed(without friction) with no heat lost to surrounding. Power input is used only for increasing the pressure and temperature.

In this cycle every process is reversible and hence it is most efficent.
When the cycle is completed input energy and power is used only for the purpose it was intended. Output was completely used for intended purpose

A series combination of two Carnots engines operate between the temperatures of $180^0C$ and $20^0C$. If the engines produce equal amount of work,then what is the intermediate temperature(In $^0C$)?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. 80

  2. 90

  3. 100

  4. 110

Show answer
Correct Option: C
Explanation:


A series combination of two Carnot engines operate between the temperatures of $180^0C$and $20^0C$.If the engines produce equal amount of work
The intermediate temperature in series combination is given by 
$T _i=\dfrac{T _1+T _2}{2}=\dfrac{180+20}{2}=100^oC$

What is the function of refrigerants in heat pumps?

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. Refrigerants supply heat to the atmosphere

  2. Refrigerants evaporate heat and cool the room

  3. Refrigerant carries heat from the atmosphere to the room,which is to be heated

  4. None of these

Show answer
Correct Option: C
Explanation:

A refrigerant is a substance or mixture, usually a fluid, used in a heat pump and refrigeration cycle. In most cycles it undergoes phase transitions from a liquid to a gas and back again.A heat pump is a device that transfers heat energy from a source of heat to what is called a "heat sink". Heat pumps move thermal energy in the opposite direction of spontaneous heat transfer, by absorbing heat from a cold space and releasing it to a warmer one. A heat pump uses a small amount of external power to accomplish the work of transferring energy from the heat source to the heat sink.


the function of refrigerants in heat pumps refrigerant carries heat from the atmosphere to the room,which is to be heated

In a cyclic heat engine operating between a source temperature of $600^0C$ and a sink temperature of $20^0 C$, the least rate of heat rejection per kW net output of the engine is,

physics option b: engineering physics conversion of heat into work: heat engine and it's efficiency engines and cycles refrigerators and heat pumps

  1. 0.505kW

  2. 0.490kW

  3. 0.333kW

  4. none of the above

Show answer
Correct Option: A
Explanation:

$\therefore Heat\quad absorption=\dfrac { { T } _{ 1 }-{ T } _{ 2 } }{ { T } _{ 1 } } $


$=\dfrac { 873-293 }{ 873 } =0.664$


$\therefore Heat\quad Rejected=1-heat\quad absorbed$
$=1-0.664$
$\therefore Heat\quad rejected=0.335$

Hence the heat of rejection per kW is $0.335$