The amount of heat flow through a body by conduction is

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

All of these

Directly proportional to the surface area of the body

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

Dependent upon the material of the body

All of these

Directly proportional to the surface area of the body

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

Dependent upon the material of the body

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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

Emissive power

Emissivity

Absorptive power

None of these

Emissive power

Emissivity

Absorptive power

None of these

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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

Prandtl number, Grashoff's number

Grashoff's number

Reynold's number, Grashoff's number

Reynold's number

Prandtl number, Grashoff's number

Grashoff's number

Reynold's number, Grashoff's number

Reynold's number

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Heat and Mass Transfer
The concept of overall coefficient of heat transfer is used in case of heat transfer by

Radiation

Conduction

Convection

Conduction and convection

Radiation

Conduction

Convection

Conduction and convection

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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

None of these

1/h₁ + 1/h₂ + 1/h₃

(h₁.h₂.h₃)1/3

h₁ + h₂ + h₃

None of these

1/h₁ + 1/h₂ + 1/h₃

(h₁.h₂.h₃)1/3

h₁ + h₂ + h₃

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Heat and Mass Transfer
In case of liquids and gases, the heat transfer takes place according to

Conduction

None of these

Convection

Radiation

Conduction

None of these

Convection

Radiation

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Heat and Mass Transfer

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

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

Heat and Mass Transfer The concept of overall coefficient of heat transfer is used in case of heat transfer by

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 case of liquids and gases, the heat transfer takes place according to

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

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

Heat and Mass Transfer
The concept of overall coefficient of heat transfer is used in case of heat transfer by

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 case of liquids and gases, the heat transfer takes place according to