The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU - W1 - 2

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Engineering Thermodynamics
If value of n is infinitely large in a polytropic process pVn = C, then the process is known as constant

Temperature

Pressure

Volume

Enthalpy

Temperature

Pressure

Volume

Enthalpy

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Engineering Thermodynamics
If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

Less

Depends on other factors

More

Equal

Less

Depends on other factors

More

Equal

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Engineering Thermodynamics
Otto cycle is also known as

Constant volume cycle

Constant temperature and pressure cycle

Constant pressure cycle

Constant temperature cycle

Constant volume cycle

Constant temperature and pressure cycle

Constant pressure cycle

Constant temperature cycle

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Engineering Thermodynamics
For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)

P v = constant, if T is kept constant

P/T = constant, if v is kept constant

V/T = constant, if p is kept constant

T/P = constant, if v is kept constant

P v = constant, if T is kept constant

P/T = constant, if v is kept constant

V/T = constant, if p is kept constant

T/P = constant, if v is kept constant

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Engineering Thermodynamics
Brayton cycle consists' of following four processes

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

Two isentropic, one constant volume and one constant pressure

Two isothermal and two isentropic

Two isentropic and two constant volumes

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Engineering Thermodynamics

Engineering Thermodynamics The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics If value of n is infinitely large in a polytropic process pVn = C, then the process is known as constant

Engineering Thermodynamics If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

Engineering Thermodynamics Otto cycle is also known as

Engineering Thermodynamics For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)

Engineering Thermodynamics Brayton cycle consists' of following four processes

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
If value of n is infinitely large in a polytropic process pVn = C, then the process is known as constant

Engineering Thermodynamics
If both Stirling and Carnot cycles operate within the same temperature limits, then efficiency of Stirling cycle as compared to Carnot cycle

Engineering Thermodynamics
Otto cycle is also known as

Engineering Thermodynamics
For a perfect gas, according to Boyle’s law (where P = Absolute pressure, V = Volume and T = Absolute temperature)

Engineering Thermodynamics
Brayton cycle consists' of following four processes