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

Thermal resistance

Temperature gradient

Thermal coefficient

Thermal conductivity

Thermal resistance

Temperature gradient

Thermal coefficient

Thermal conductivity

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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

Fourth power of the absolute temperature

Absolute temperature

Cube of the absolute temperature

Square of the absolute temperature

Fourth power of the absolute temperature

Absolute temperature

Cube of the absolute temperature

Square of the absolute temperature

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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

Emissivity

Emissive power

None of these

Absorptive power

Emissivity

Emissive power

None of these

Absorptive power

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Heat and Mass Transfer
In heat exchangers, degree of approach is defined as the difference between temperatures of

Cold water inlet and outlet

Hot medium outlet and cold water outlet

Hot medium outlet and cold water inlet

Hot medium inlet and outlet

Cold water inlet and outlet

Hot medium outlet and cold water outlet

Hot medium outlet and cold water inlet

Hot medium inlet and outlet

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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

1/h₁ + 1/h₂ + 1/h₃

(h₁.h₂.h₃)1/3

None of these

h₁ + h₂ + h₃

1/h₁ + 1/h₂ + 1/h₃

(h₁.h₂.h₃)1/3

None of these

h₁ + h₂ + h₃

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Heat and Mass Transfer
In free convection heat transfer transition from laminar to turbulent flow is governed by the critical value of the

Reynold's number

Reynold's number, Grashoff's number

Prandtl number, Grashoff's number

Grashoff's number

Reynold's number

Reynold's number, Grashoff's number

Prandtl number, Grashoff's number

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

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 In heat exchangers, degree of approach is defined as the difference between temperatures of

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 In free convection heat transfer transition from laminar to turbulent flow is governed by the critical value of the

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

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
In heat exchangers, degree of approach is defined as the difference between temperatures of

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
In free convection heat transfer transition from laminar to turbulent flow is governed by the critical value of the