Heat conducted through per unit area and unit thick face per unit time when temperature difference between opposite faces is unity, is called

Heat and Mass Transfer
Heat conducted through per unit area and unit thick face per unit time when temperature difference between opposite faces is unity, is called

Temperature gradient

Thermal coefficient

Thermal resistance

Thermal conductivity

Temperature gradient

Thermal coefficient

Thermal resistance

Thermal conductivity

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Heat and Mass Transfer
According to Wien's law, the wavelength corresponding to maximum energy is proportion to

Absolute temperature (T)

T

F

I²

Absolute temperature (T)

T

F

I²

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Heat and Mass Transfer
Sensible heat factor is given by (where S.H. = Sensible heat, and L.H. = Latent heat)

(L.H - S.H)/S.H

S.H/(S.H + L.H)

(S.H + L.H) /S.H

S.H/(L.H - S.H)

(L.H - S.H)/S.H

S.H/(S.H + L.H)

(S.H + L.H) /S.H

S.H/(L.H - S.H)

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Heat and Mass Transfer
The amount of heat flow through a body by conduction is

Dependent upon the material of the body

All of these

Directly proportional to the temperature difference on the two faces of the body

Directly proportional to the surface area of the body

Dependent upon the material of the body

All of these

Directly proportional to the temperature difference on the two faces of the body

Directly proportional to the surface area of the body

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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 = 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

RN = ρ V l /μ

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Heat and Mass Transfer
In free convection heat transfer, Nusselt number is function of

Grashoff number and Prandtl number

Grashoff number, Prandtl number and Reynold number

Prandtl number and Reynold number

Grashoff number and Reynold number

Grashoff number and Prandtl number

Grashoff number, Prandtl number and Reynold number

Prandtl number and Reynold number

Grashoff number and Reynold number

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Heat and Mass Transfer

Heat and Mass Transfer Heat conducted through per unit area and unit thick face per unit time when temperature difference between opposite faces is unity, is called

Heat and Mass Transfer According to Wien's law, the wavelength corresponding to maximum energy is proportion to

Heat and Mass Transfer Sensible heat factor is given by (where S.H. = Sensible heat, and L.H. = Latent heat)

Heat and Mass Transfer The amount of heat flow through a body by conduction is

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 In free convection heat transfer, Nusselt number is function of

Heat and Mass Transfer
Heat conducted through per unit area and unit thick face per unit time when temperature difference between opposite faces is unity, is called

Heat and Mass Transfer
According to Wien's law, the wavelength corresponding to maximum energy is proportion to

Heat and Mass Transfer
Sensible heat factor is given by (where S.H. = Sensible heat, and L.H. = Latent heat)

Heat and Mass Transfer
The amount of heat flow through a body by conduction is

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
In free convection heat transfer, Nusselt number is function of