The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics
The gas constant (R) is equal to the __________ of two specific heats.

Product

Sum

Difference

Ratio

Product

Sum

Difference

Ratio

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Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

54 kJ

114 kJ

30 kJ

84 kJ

54 kJ

114 kJ

30 kJ

84 kJ

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Engineering Thermodynamics
A closed system is one in which

Mass does not cross boundaries of the system, though energy may do so

Neither mass nor energy crosses the boundaries of the system

Mass crosses the boundary but not the energy

Both energy and mass cross the boundaries of the system

Mass does not cross boundaries of the system, though energy may do so

Neither mass nor energy crosses the boundaries of the system

Mass crosses the boundary but not the energy

Both energy and mass cross the boundaries of the system

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Engineering Thermodynamics
According to Avogadro’s law

The product of the gas constant and the molecular mass of an ideal gas is constant

Equal volumes of all gases, at the same temperature and pressure, contain equal number of molecules

The sum of partial pressure of the mixture of two gases is sum of the two

All of these

The product of the gas constant and the molecular mass of an ideal gas is constant

Equal volumes of all gases, at the same temperature and pressure, contain equal number of molecules

The sum of partial pressure of the mixture of two gases is sum of the two

All of these

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Engineering Thermodynamics
Second law of thermodynamics defines

Work

Heat

Entropy

Internal energy

Work

Heat

Entropy

Internal energy

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Engineering Thermodynamics
The ultimate analysis of coal consists of the determination of the percentage of

Sulphur and ash

Hydrogen and nitrogen

All of the listed here

Carbon

Sulphur and ash

Hydrogen and nitrogen

All of the listed here

Carbon

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Engineering Thermodynamics

Engineering Thermodynamics The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics A closed system is one in which

Engineering Thermodynamics According to Avogadro’s law

Engineering Thermodynamics Second law of thermodynamics defines

Engineering Thermodynamics The ultimate analysis of coal consists of the determination of the percentage of

Engineering Thermodynamics
The gas constant (R) is equal to the __________ of two specific heats.

Engineering Thermodynamics
A mixture of gas expands from 0.03 m3 to 0.06 m3 at a constant pressure of 1 MPa and absorbs 84 kJ of heat during the process. The change in internal energy of the mixture is

Engineering Thermodynamics
A closed system is one in which

Engineering Thermodynamics
According to Avogadro’s law

Engineering Thermodynamics
Second law of thermodynamics defines

Engineering Thermodynamics
The ultimate analysis of coal consists of the determination of the percentage of