According of Kirchhoff's law

Heat and Mass Transfer
According of Kirchhoff's law

Radiant heat is proportional to fourth power of absolute temperature

Emissive power and absorptivity are constant for all bodies

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

Emissive power depends on temperature

Radiant heat is proportional to fourth power of absolute temperature

Emissive power and absorptivity are constant for all bodies

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

Emissive power depends on temperature

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Heat and Mass Transfer
Reynolds number (RN) is given by (where h = Film coefficient, l = Linear dimension, V = Velocity of fluid, k = Thermal conductivity, t = Temperature, ρ = Density of fluid, cp = Specific heat at constant pressure, and μ = Coefficient of absolute viscosity)

RN = ρ V l /μ

RN = hl/k

RN = μ cp/k

RN = V²/t.cp

RN = ρ V l /μ

RN = hl/k

RN = μ cp/k

RN = V²/t.cp

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Heat and Mass Transfer
Depending on the radiating properties, a body will be opaque when

X = 0, a + p = 1

P = 0, x = 0 and a = 1

P = 0, x = 1 and a = 0

P=1, x = 0 and a = 0

X = 0, a + p = 1

P = 0, x = 0 and a = 1

P = 0, x = 1 and a = 0

P=1, x = 0 and a = 0

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Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

First law of thermodynamics

Newton's law of heating

Newton's law of cooling

Stefan's law

First law of thermodynamics

Newton's law of heating

Newton's law of cooling

Stefan's law

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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

0.55

0.75

0.4

0.45

0.55

0.75

0.4

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Heat and Mass Transfer
Unit of thermal conductivity in M.K.S. units is

K cal m/hr m² °C

K calm/hr °C

K cal/hr m² °C

K cal/kg m² °C

K cal m/hr m² °C

K calm/hr °C

K cal/hr m² °C

K cal/kg m² °C

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Heat and Mass Transfer

Heat and Mass Transfer According of Kirchhoff's law

Heat and Mass Transfer Reynolds number (RN) is given by (where h = Film coefficient, l = Linear dimension, V = Velocity of fluid, k = Thermal conductivity, t = Temperature, ρ = Density of fluid, cp = Specific heat at constant pressure, and μ = Coefficient of absolute viscosity)

Heat and Mass Transfer Depending on the radiating properties, a body will be opaque when

Heat and Mass Transfer The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

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 Unit of thermal conductivity in M.K.S. units is

Heat and Mass Transfer
According of Kirchhoff's law

Heat and Mass Transfer
Reynolds number (RN) is given by (where h = Film coefficient, l = Linear dimension, V = Velocity of fluid, k = Thermal conductivity, t = Temperature, ρ = Density of fluid, cp = Specific heat at constant pressure, and μ = Coefficient of absolute viscosity)

Heat and Mass Transfer
Depending on the radiating properties, a body will be opaque when

Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

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
Unit of thermal conductivity in M.K.S. units is