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

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

Dependent upon the material of the body

All of these

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

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Heat and Mass Transfer
Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)

X = 0, a + p = 0

P= 1, T = 0 and a = 0

P = 0, x = 0 and a = 1

P = 0, x = 1 and a = 0

X = 0, a + p = 0

P= 1, T = 0 and a = 0

P = 0, x = 0 and a = 1

P = 0, x = 1 and a = 0

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Heat and Mass Transfer
The most commonly used method for the design of duct size is the

Equal friction method

Dual or double method

Velocity reduction method

Static regains method

Equal friction method

Dual or double method

Velocity reduction method

Static regains method

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Heat and Mass Transfer
The use of heat exchangers is made in

Condensers and boilers in steam plants

Condensers and evaporators in refrigeration and air conditioning units

Radiators in automobile

All of these

Condensers and boilers in steam plants

Condensers and evaporators in refrigeration and air conditioning units

Radiators in automobile

All of these

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

Thickness of film of fluid to the thermal conductivity

Thermal conductivity to the equivalent thickness of the film of fluid

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

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

Thickness of film of fluid to the thermal conductivity

Thermal conductivity to the equivalent thickness of the film of fluid

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

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

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Heat and Mass Transfer
The ratio of the thickness of thermal boundary layer to the thickness of hydrodynamic boundary layer is equal to (Prandtl number) n, where n is equal to

=-1/3

1

-1

=-2/3

=-1/3

1

-1

=-2/3

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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 Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)

Heat and Mass Transfer The most commonly used method for the design of duct size is the

Heat and Mass Transfer The use of heat exchangers is made in

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

Heat and Mass Transfer The ratio of the thickness of thermal boundary layer to the thickness of hydrodynamic boundary layer is equal to (Prandtl number) n, where n is equal to

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

Heat and Mass Transfer
Depending on the radiating properties, a body will be black when (Where a = absorptivity, p = reflectivity, X = transmissivity.)

Heat and Mass Transfer
The most commonly used method for the design of duct size is the

Heat and Mass Transfer
The use of heat exchangers is made in

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

Heat and Mass Transfer
The ratio of the thickness of thermal boundary layer to the thickness of hydrodynamic boundary layer is equal to (Prandtl number) n, where n is equal to