The heat transfer by conduction through a thick sphere is given by

Heat and Mass Transfer
The heat transfer by conduction through a thick sphere is given by

Q = 6πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 4πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 2πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 8πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 6πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 4πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 2πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 8πkr1 r2 (T1 - T2)/ (r2 - r1)

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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
Thermal conductivity of air with rise in temperature

May increase or decrease depending on temperature

Increases

Decreases

Remain constant

May increase or decrease depending on temperature

Increases

Decreases

Remain constant

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Heat and Mass Transfer
A steam pipe is to be lined with two layers of insulating materials of different thermal conductivities. For the minimum heat transfer,

The better insulation must be put outside

One should take into account the steam temperature before deciding as to which insulation is put where

One could place either insulation on either side

The better insulation must be put inside

The better insulation must be put outside

One should take into account the steam temperature before deciding as to which insulation is put where

One could place either insulation on either side

The better insulation must be put inside

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Heat and Mass Transfer
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. This statement is known as

Planck's law

Stefan's law

Wien's law

Kirchhoff's law

Planck's law

Stefan's law

Wien's law

Kirchhoff's law

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Heat and Mass Transfer
Pick up the wrong case. Heat flowing from one side to other depends directly on

Face area

Time

Thickness

Temperature difference

Face area

Time

Thickness

Temperature difference

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Heat and Mass Transfer

Heat and Mass Transfer The heat transfer by conduction through a thick sphere is given by

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 Thermal conductivity of air with rise in temperature

Heat and Mass Transfer A steam pipe is to be lined with two layers of insulating materials of different thermal conductivities. For the minimum heat transfer,

Heat and Mass Transfer 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. This statement is known as

Heat and Mass Transfer Pick up the wrong case. Heat flowing from one side to other depends directly on

Heat and Mass Transfer
The heat transfer by conduction through a thick sphere is given by

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
Thermal conductivity of air with rise in temperature

Heat and Mass Transfer
A steam pipe is to be lined with two layers of insulating materials of different thermal conductivities. For the minimum heat transfer,

Heat and Mass Transfer
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. This statement is known as

Heat and Mass Transfer
Pick up the wrong case. Heat flowing from one side to other depends directly on