The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

First law of thermodynamics

Newton's law of heating

Newton's law of cooling

Stefan's law

First law of thermodynamics

Newton's law of heating

Newton's law of cooling

Stefan's law

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Heat and Mass Transfer
The thermal diffusivities for gases are generally

Dependent on the viscosity

More than those for solids

Less than those for liquids

More than those for liquids

Dependent on the viscosity

More than those for solids

Less than those for liquids

More than those for liquids

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

Convection

Radiation

None of these

Conduction

Convection

Radiation

None of these

Conduction

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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 = ρ V l /μ

RN = V²/t.cp

RN = μ cp/k

RN = hl/k

RN = ρ V l /μ

RN = V²/t.cp

RN = μ cp/k

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Heat and Mass Transfer
The process of heat transfer from one particle of the fluid to another by the actual movement of the fluid particles due to difference of density caused by temperature of the particle is known as

Radiation

Conduction

Forced convection

Free convection

Radiation

Conduction

Forced convection

Free convection

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Heat and Mass Transfer
In regenerator type heat exchanger, heat transfer takes place by

A complete separation between hot and cold fluids

Flow of hot and cold fluids alternately over a surface

Generation of heat again and again

Direct mixing of hot and cold fluids

A complete separation between hot and cold fluids

Flow of hot and cold fluids alternately over a surface

Generation of heat again and again

Direct mixing of hot and cold fluids

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Heat and Mass Transfer

Heat and Mass Transfer The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer The thermal diffusivities for gases are generally

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

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 The process of heat transfer from one particle of the fluid to another by the actual movement of the fluid particles due to difference of density caused by temperature of the particle is known as

Heat and Mass Transfer In regenerator type heat exchanger, heat transfer takes place by

Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer
The thermal diffusivities for gases are generally

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

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
The process of heat transfer from one particle of the fluid to another by the actual movement of the fluid particles due to difference of density caused by temperature of the particle is known as

Heat and Mass Transfer
In regenerator type heat exchanger, heat transfer takes place by