One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

1400 K

1000 K

1200 K

800 K

1400 K

1000 K

1200 K

800 K

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Engineering Thermodynamics
The specific heat at constant volume is

The amount of heat required to raise the temperature of unit mass of gas through one degree, at constant pressure

Any one of the above

The amount of heat required to raise the temperature of unit mass of gas through one degree, at constant volume

The amount of heat required to raise the temperature of 1 kg of water through one degree

The amount of heat required to raise the temperature of unit mass of gas through one degree, at constant pressure

Any one of the above

The amount of heat required to raise the temperature of unit mass of gas through one degree, at constant volume

The amount of heat required to raise the temperature of 1 kg of water through one degree

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Engineering Thermodynamics
Otto cycle consists of following four processes

Two isentropic, one constant volume and one constant pressure

Two isothermal and two isentropic

Two isentropic and two constant volumes

Two isentropic and two constant pressures

Two isentropic, one constant volume and one constant pressure

Two isothermal and two isentropic

Two isentropic and two constant volumes

Two isentropic and two constant pressures

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Engineering Thermodynamics
During throttling process

No work is done by expanding steam

All of these

Heat exchange does not take place

There is no change of internal energy of steam

No work is done by expanding steam

All of these

Heat exchange does not take place

There is no change of internal energy of steam

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Engineering Thermodynamics
Entropy change depends on

Heat transfer

Change of temperature

Mass transfer

Thermodynamic state

Heat transfer

Change of temperature

Mass transfer

Thermodynamic state

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Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

1 - (T1/T2)

(T1/T2) - 1

1 + (T2/T1)

1 - (T2/T1)

1 - (T1/T2)

(T1/T2) - 1

1 + (T2/T1)

1 - (T2/T1)

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Engineering Thermodynamics

Engineering Thermodynamics One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics The specific heat at constant volume is

Engineering Thermodynamics Otto cycle consists of following four processes

Engineering Thermodynamics During throttling process

Engineering Thermodynamics Entropy change depends on

Engineering Thermodynamics The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)

Engineering Thermodynamics
One reversible heat engine operates between 1600 K and T2 K and another reversible heat engine operates between T2 K and 400 K. If both the engines have the same heat input and output, then temperature T2 is equal to

Engineering Thermodynamics
The specific heat at constant volume is

Engineering Thermodynamics
Otto cycle consists of following four processes

Engineering Thermodynamics
During throttling process

Engineering Thermodynamics
Entropy change depends on

Engineering Thermodynamics
The efficiency of the Carnot cycle is (where T1 and T2 = Highest and lowest temperature during the cycle)