One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to

1.033 kgf/cm²

1.0197 kgf/cm²

0 kgf/cm²

1 kgf/cm²

1.033 kgf/cm²

1.0197 kgf/cm²

0 kgf/cm²

1 kgf/cm²

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Engineering Thermodynamics
If a system after undergoing a series of processes, returns to the initial state then

Its entropy will change due to irreversibility

Process is thermodynamically in equilibrium

Process is executed in closed system cycle

Sum of heat and work transfer will be zero

Its entropy will change due to irreversibility

Process is thermodynamically in equilibrium

Process is executed in closed system cycle

Sum of heat and work transfer will be zero

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Engineering Thermodynamics
For the same compression ratio, the efficiency of dual combustion cycle is

Greater than Diesel cycle

Less than Diesel cycle and greater than Otto cycle

Less than Diesel cycle

Greater than Diesel cycle and less than Otto cycle

Greater than Diesel cycle

Less than Diesel cycle and greater than Otto cycle

Less than Diesel cycle

Greater than Diesel cycle and less than Otto cycle

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Engineering Thermodynamics
According to Gay Lussac’s law for a perfect gas, the absolute pressure of given mass varies directly as

Absolute temperature, if volume is kept constant

None of these

Volume, if temperature is kept constant

Temperature

Absolute temperature, if volume is kept constant

None of these

Volume, if temperature is kept constant

Temperature

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Engineering Thermodynamics
Change in enthalpy of a system is the heat supplied at

Constant temperature

Constant pressure

Constant volume

Constant entropy

Constant temperature

Constant pressure

Constant volume

Constant entropy

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Engineering Thermodynamics
The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Specific heat at constant pressure

Specific heat at constant volume

None of these

kilo-Joule

Specific heat at constant pressure

Specific heat at constant volume

None of these

kilo-Joule

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Engineering Thermodynamics

Engineering Thermodynamics One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics If a system after undergoing a series of processes, returns to the initial state then

Engineering Thermodynamics For the same compression ratio, the efficiency of dual combustion cycle is

Engineering Thermodynamics According to Gay Lussac’s law for a perfect gas, the absolute pressure of given mass varies directly as

Engineering Thermodynamics Change in enthalpy of a system is the heat supplied at

Engineering Thermodynamics The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics
If a system after undergoing a series of processes, returns to the initial state then

Engineering Thermodynamics
For the same compression ratio, the efficiency of dual combustion cycle is

Engineering Thermodynamics
According to Gay Lussac’s law for a perfect gas, the absolute pressure of given mass varies directly as

Engineering Thermodynamics
Change in enthalpy of a system is the heat supplied at

Engineering Thermodynamics
The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called