Unit of thermal conductivity in S.I. units is

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

J/m² sec

Option (B) and (C) above

W/m °K

J/m °K sec

J/m² sec

Option (B) and (C) above

W/m °K

J/m °K sec

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Heat and Mass Transfer
Thermal diffusivity of a substance is given by (where h = Thermal diffusivity, ρ = Density of substance, S = Specific heat, and k = Thermal conductivity)

h = ρS/k

h = kρ/S

h = S/ρk

h = k/ ρS

h = ρS/k

h = kρ/S

h = S/ρk

h = k/ ρS

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Heat and Mass Transfer
If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

None of these

Emissivity

Emissive power

Absorptive power

None of these

Emissivity

Emissive power

Absorptive power

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Heat and Mass Transfer
Film coefficient is defined as the ratio of

Thickness of film of fluid to the temperature drop through the films of fluids

Thickness of film of fluid to the thermal conductivity

Thermal conductivity to the equivalent thickness of the film of fluid

Temperature drop through the films of fluids to the thickness of film of fluids

Thickness of film of fluid to the temperature drop through the films of fluids

Thickness of film of fluid to the thermal conductivity

Thermal conductivity to the equivalent thickness of the film of fluid

Temperature drop through the films of fluids to the thickness of film of fluids

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Heat and Mass Transfer
The energy distribution of an ideal reflector at higher temperatures is largely in the range of

Remain same at all wavelengths

Shorter wavelength

Wavelength has nothing to do with it

Longer wavelength

Remain same at all wavelengths

Shorter wavelength

Wavelength has nothing to do with it

Longer wavelength

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Heat and Mass Transfer
According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to

Fourth power of absolute temperature

Fourth power of temperature

Absolute temperature

Square of temperature

Fourth power of absolute temperature

Fourth power of temperature

Absolute temperature

Square of temperature

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Heat and Mass Transfer

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

Heat and Mass Transfer Thermal diffusivity of a substance is given by (where h = Thermal diffusivity, ρ = Density of substance, S = Specific heat, and k = Thermal conductivity)

Heat and Mass Transfer If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

Heat and Mass Transfer Film coefficient is defined as the ratio of

Heat and Mass Transfer The energy distribution of an ideal reflector at higher temperatures is largely in the range of

Heat and Mass Transfer According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to

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

Heat and Mass Transfer
Thermal diffusivity of a substance is given by (where h = Thermal diffusivity, ρ = Density of substance, S = Specific heat, and k = Thermal conductivity)

Heat and Mass Transfer
If the energy radiated per second per sq. cm. of the surface for wave lengths lying between λ, and λ + dλ is represented by (eλ.dλ), then eλ is called

Heat and Mass Transfer
Film coefficient is defined as the ratio of

Heat and Mass Transfer
The energy distribution of an ideal reflector at higher temperatures is largely in the range of

Heat and Mass Transfer
According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to