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Chemical Engineering Thermodynamics

A thermodynamic system is taken from state A to B along ACB and is brought back to A along BDA as shown below in the P-V diagram.The net work done during the complete cycle is given by the area covered by

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics /
Question: A thermodynamic system is taken from state A to B along ACB and is brought back to A along BDA as shown below in the P-V diagram.The net work done during the complete cycle is given by the area covered by
[A].

P1ACBP2P1

[B].

ACBB1A1A

[C].

ACBDA

[D].

ADBB1A1A

Answer: Option C

Explanation:

No answer description available for this question.

A thermodynamic system is taken from state A to B along ACB and is brought back to A along BDA as shown below in the P-V diagram.The net work done during the complete cycle is given by the area covered by Read More »

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics

An ideal gas is taken around the cycle ABCA as shown in P-V diagram below :The work done by the gas during the cycle is equal to

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics /
Question: An ideal gas is taken around the cycle ABCA as shown in P-V diagram below :The work done by the gas during the cycle is equal to
[A].

12 P1V1

[B].

6 P1V1

[C].

3 P1V1

[D].

P1V1

Answer: Option C

Explanation:

No answer description available for this question.

An ideal gas is taken around the cycle ABCA as shown in P-V diagram below :The work done by the gas during the cycle is equal to Read More »

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics

A large iceberg melts at the base, but not at the top, because of the reason that

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics /
Question: A large iceberg melts at the base, but not at the top, because of the reason that
[A].

ice at the base contains impurities which lowers its melting point.

[B].

due to the high pressure at the base, its melting point reduces.

[C].

the iceberg remains in a warmer condition at the base.

[D].

all (a), (b) and (c).

Answer: Option B

Explanation:

No answer description available for this question.

A large iceberg melts at the base, but not at the top, because of the reason that Read More »

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics

If atmospheric temperature and dew point are nearly equal, then the relative humidity is

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics /
Question: If atmospheric temperature and dew point are nearly equal, then the relative humidity is
[A].

zero

[B].

50%

[C].

almost 100%

[D].

unpredictable

Answer: Option C

Explanation:

No answer description available for this question.

If atmospheric temperature and dew point are nearly equal, then the relative humidity is Read More »

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics

At normal boiling point, molar entropy of vaporisation is __________ Joule/K°.mole.

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics /
Question: At normal boiling point, molar entropy of vaporisation is __________ Joule/K°.mole.
[A].

72

[B].

92

[C].

142

[D].

192

Answer: Option B

Explanation:

No answer description available for this question.

At normal boiling point, molar entropy of vaporisation is __________ Joule/K°.mole. Read More »

CHEMICAL ENGINEERING, Chemical Engineering Thermodynamics