Kirchhoff's law states that

Heat and Mass Transfer
Kirchhoff's law states that

The wave length corresponding to the maximum energy is proportional to the absolute temperature

The ratio of the emissive power and absorptive power of all bodies is the same and is equal to the emissive power of a perfectly black body

None of these

The total radiation from a black body per second per unit area is directly proportional to the fourth power of the absolute temperature

The wave length corresponding to the maximum energy is proportional to the absolute temperature

The ratio of the emissive power and absorptive power of all bodies is the same and is equal to the emissive power of a perfectly black body

None of these

The total radiation from a black body per second per unit area is directly proportional to the fourth power of the absolute temperature

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Heat and Mass Transfer
If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

Absorptive power

None of these

Emissivity

Emissive power

Absorptive power

None of these

Emissivity

Emissive power

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Heat and Mass Transfer
According to Newton's law of cooling, the heat transfer from a hot body to a cold body is

Both (A) and (B)

Directly proportional to the surface area

Either (A) or (B)

Directly proportional to the difference of temperatures between the two bodies

Both (A) and (B)

Directly proportional to the surface area

Either (A) or (B)

Directly proportional to the difference of temperatures between the two bodies

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Heat and Mass Transfer
If the temperature of a solid surface changes form 27°C to 627°C, then its emissive power changes in the ratio of

81

270

3

9

81

270

3

9

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Heat and Mass Transfer
In counter current flow heat exchanger, the logarithmic temperature difference between the fluids is ________ as compared to parallel flow heat exchanger.

Same

None of these

Greater

Less

Same

None of these

Greater

Less

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Heat and Mass Transfer
Thermal conductivity of non-metallic amorphous solids with decrease in temperature

Decreases

Increases

Remain constant

May increase or decrease depending on temperature

Decreases

Increases

Remain constant

May increase or decrease depending on temperature

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Heat and Mass Transfer

Heat and Mass Transfer Kirchhoff's law states that

Heat and Mass Transfer If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

Heat and Mass Transfer According to Newton's law of cooling, the heat transfer from a hot body to a cold body is

Heat and Mass Transfer If the temperature of a solid surface changes form 27°C to 627°C, then its emissive power changes in the ratio of

Heat and Mass Transfer In counter current flow heat exchanger, the logarithmic temperature difference between the fluids is ________ as compared to parallel flow heat exchanger.

Heat and Mass Transfer Thermal conductivity of non-metallic amorphous solids with decrease in temperature

Heat and Mass Transfer
Kirchhoff's law states that

Heat and Mass Transfer
If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

Heat and Mass Transfer
According to Newton's law of cooling, the heat transfer from a hot body to a cold body is

Heat and Mass Transfer
If the temperature of a solid surface changes form 27°C to 627°C, then its emissive power changes in the ratio of

Heat and Mass Transfer
In counter current flow heat exchanger, the logarithmic temperature difference between the fluids is ________ as compared to parallel flow heat exchanger.

Heat and Mass Transfer
Thermal conductivity of non-metallic amorphous solids with decrease in temperature