In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Heat and Mass Transfer
In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Sq. m (area)

°C (temperature)

Hr (time)

K.cal (heat)

Sq. m (area)

°C (temperature)

Hr (time)

K.cal (heat)

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Heat and Mass Transfer
Fourier's law of heat conduction is valid for

One dimensional cases only

Three dimensional cases only

Two dimensional cases only

Regular surfaces having non-uniform temperature gradients

One dimensional cases only

Three dimensional cases only

Two dimensional cases only

Regular surfaces having non-uniform temperature gradients

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Heat and Mass Transfer
Reynolds number is the ratio of

Energy transferred by convection to that by conduction

Inertia force to viscous force

Kinematic viscosity to thermal diffusivity

None of these

Energy transferred by convection to that by conduction

Inertia force to viscous force

Kinematic viscosity to thermal diffusivity

None of these

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Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

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Heat and Mass Transfer
Thermal conductivity of water in general with rise in temperature

May increase or decrease depending on temperature

Increases

Decreases

Remain constant

May increase or decrease depending on temperature

Increases

Decreases

Remain constant

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Heat and Mass Transfer
The heat transfer takes place according to

Second law of thermodynamics

First law of thermodynamics

Kirchhoff's law

Zeroth law of thermodynamics

Second law of thermodynamics

First law of thermodynamics

Kirchhoff's law

Zeroth law of thermodynamics

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Heat and Mass Transfer

Heat and Mass Transfer In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Heat and Mass Transfer Fourier's law of heat conduction is valid for

Heat and Mass Transfer Reynolds number is the ratio of

Heat and Mass Transfer The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer Thermal conductivity of water in general with rise in temperature

Heat and Mass Transfer The heat transfer takes place according to

Heat and Mass Transfer
In heat transfer, conductance equals conductivity (kcal/hr/sq.m/°C/cm) divided by

Heat and Mass Transfer
Fourier's law of heat conduction is valid for

Heat and Mass Transfer
Reynolds number is the ratio of

Heat and Mass Transfer
The logarithmic mean temperature difference (tm) is given by (where Δt1 and Δt2 are temperature differences between the hot and cold fluids at entrance and exit)

Heat and Mass Transfer
Thermal conductivity of water in general with rise in temperature

Heat and Mass Transfer
The heat transfer takes place according to