According to Stefan Boltzmann law, the total radiation from a black body per second per unit area is directly proportional to the

Heat and Mass Transfer
According to Stefan Boltzmann law, the total radiation from a black body per second per unit area is directly proportional to the

Square of the absolute temperature

Cube of the absolute temperature

Fourth power of the absolute temperature

Absolute temperature

Square of the absolute temperature

Cube of the absolute temperature

Fourth power of the absolute temperature

Absolute temperature

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Heat and Mass Transfer
Two long parallel surfaces each of emissivity 0.7 are maintained at different temperatures and accordingly have radiation heat exchange between them. It is desired to reduce 75% of the radiant heat transfer by inserting thin parallel shields of emissivity 1 on both sides. The number of shields should be

One

Three

Four

Two

One

Three

Four

Two

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Heat and Mass Transfer
The expression Q = ρ AT4 is called

Stefan-Boltzmann equation

Joseph-Stefan equation

Newton Reichmann equation

Fourier equation

Stefan-Boltzmann equation

Joseph-Stefan equation

Newton Reichmann equation

Fourier equation

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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. (dT/dx)

k. A. (dx/dT)

k. A. (dT/dx)

k. (dx/dT)

k. (dT/dx)

k. A. (dx/dT)

k. A. (dT/dx)

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Heat and Mass Transfer
Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of

0.16736111111111

0.084027777777778

0.043055555555556

0.042361111111111

0.16736111111111

0.084027777777778

0.043055555555556

0.042361111111111

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Heat and Mass Transfer
Thermal conductivity of glass wool varies from sample to sample because of variation in

All of these

Density

Porosity

Composition

All of these

Density

Porosity

Composition

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Heat and Mass Transfer

Heat and Mass Transfer According to Stefan Boltzmann law, the total radiation from a black body per second per unit area is directly proportional to the

Heat and Mass Transfer The expression Q = ρ AT4 is called

Heat and Mass Transfer Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of

Heat and Mass Transfer Thermal conductivity of glass wool varies from sample to sample because of variation in

Heat and Mass Transfer
According to Stefan Boltzmann law, the total radiation from a black body per second per unit area is directly proportional to the

Heat and Mass Transfer
The expression Q = ρ AT4 is called

Heat and Mass Transfer
Two balls of same material and finish have their diameters in the ratio of 2: 1 and both are heated to same temperature and allowed to cool by radiation. Rate of cooling by big ball as compared to smaller one will be in the ratio of

Heat and Mass Transfer
Thermal conductivity of glass wool varies from sample to sample because of variation in