Planck’s law holds good for

Heat and Mass Transfer
Planck’s law holds good for

black bodies

All of these

polished bodies

all coloured bodies

black bodies

All of these

polished bodies

all coloured bodies

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

Q = 6πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 2πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 8πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 4πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 6πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 2πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 8πkr1 r2 (T1 - T2)/ (r2 - r1)

Q = 4πkr1 r2 (T1 - T2)/ (r2 - r1)

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Heat and Mass Transfer
In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

All of these

Counter flow

Cross flow

Parallel flow

All of these

Counter flow

Cross flow

Parallel flow

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Heat and Mass Transfer
Emissivity of a white polished body in comparison to a black body is

Lower

Higher

Depends upon the shape of body

Same

Lower

Higher

Depends upon the shape of body

Same

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Heat and Mass Transfer
A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

(h₁.h₂.h₃)1/3

1/h₁ + 1/h₂ + 1/h₃

h₁ + h₂ + h₃

None of these

(h₁.h₂.h₃)1/3

1/h₁ + 1/h₂ + 1/h₃

h₁ + h₂ + h₃

None of these

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Heat and Mass Transfer
A steam pipe is to be insulated by two insulating materials put over each other. For best results

Both may be put in any order

Better insulation should be put over pipe and better one over it

Whether to put inferior OIL over pipe or the better one would depend on steam temperature

Inferior insulation should be put over pipe and better one over it

Both may be put in any order

Better insulation should be put over pipe and better one over it

Whether to put inferior OIL over pipe or the better one would depend on steam temperature

Inferior insulation should be put over pipe and better one over it

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Heat and Mass Transfer

Heat and Mass Transfer Planck’s law holds good for

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

Heat and Mass Transfer In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

Heat and Mass Transfer Emissivity of a white polished body in comparison to a black body is

Heat and Mass Transfer A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

Heat and Mass Transfer A steam pipe is to be insulated by two insulating materials put over each other. For best results

Heat and Mass Transfer
Planck’s law holds good for

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

Heat and Mass Transfer
In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

Heat and Mass Transfer
Emissivity of a white polished body in comparison to a black body is

Heat and Mass Transfer
A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

Heat and Mass Transfer
A steam pipe is to be insulated by two insulating materials put over each other. For best results