Heat transfer by radiation mainly depends upon

Heat and Mass Transfer
Heat transfer by radiation mainly depends upon

All of these

Nature of the body

Its temperature

Kind and extent of its surface

All of these

Nature of the body

Its temperature

Kind and extent of its surface

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Heat and Mass Transfer
An electric cable of aluminium conductor (k = 240 W/mK) is to be insulated with rubber (k = 0.15 W/mK). The cable is to be located in air (h = 6 W/m²). The critical thickness of insulation will be

40 mm

160 mm

800 mm

25 mm

40 mm

160 mm

800 mm

25 mm

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Heat and Mass Transfer
A perfect black body is one which

Absorbs heat radiations of all wave lengths falling on it

Reflects all heat

Is black in colour

Transmits all heat radiations

Absorbs heat radiations of all wave lengths falling on it

Reflects all heat

Is black in colour

Transmits all heat radiations

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Heat and Mass Transfer
According of Kirchhoff's law

Emissive power and absorptivity are constant for all bodies

Emissive power depends on temperature

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

Radiant heat is proportional to fourth power of absolute temperature

Emissive power and absorptivity are constant for all bodies

Emissive power depends on temperature

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

Radiant heat is proportional to fourth power of absolute temperature

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Heat and Mass Transfer
Fourier's law of heat conduction is (where Q = Amount of heat flow through the body in unit time, A = Surface area of heat flow, taken at right angles to the direction of heat flow, dT = Temperature difference on the two faces of the body, dx = Thickness of the body, through which the heat flows, taken along the direction of heat flow, and k = Thermal conductivity of the body)

k. (dx/dT)

k. A. (dT/dx)

k. A. (dx/dT)

k. (dT/dx)

k. (dx/dT)

k. A. (dT/dx)

k. A. (dx/dT)

k. (dT/dx)

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Heat and Mass Transfer
40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is

0.45

0.4

0.55

0.75

0.45

0.4

0.55

0.75

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Heat and Mass Transfer

Heat and Mass Transfer Heat transfer by radiation mainly depends upon

Heat and Mass Transfer An electric cable of aluminium conductor (k = 240 W/mK) is to be insulated with rubber (k = 0.15 W/mK). The cable is to be located in air (h = 6 W/m²). The critical thickness of insulation will be

Heat and Mass Transfer A perfect black body is one which

Heat and Mass Transfer According of Kirchhoff's law

Heat and Mass Transfer 40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is

Heat and Mass Transfer
Heat transfer by radiation mainly depends upon

Heat and Mass Transfer
An electric cable of aluminium conductor (k = 240 W/mK) is to be insulated with rubber (k = 0.15 W/mK). The cable is to be located in air (h = 6 W/m²). The critical thickness of insulation will be

Heat and Mass Transfer
A perfect black body is one which

Heat and Mass Transfer
According of Kirchhoff's law

Heat and Mass Transfer
40% of incident radiant energy on the surface of a thermally transparent body is reflected back. If the transmissivity of the body be 0.15, then the emissivity of surface is