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
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 = 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)

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

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Heat and Mass Transfer
Heat transfer takes place as per

Second law of the thermodynamics

First law of thermodynamic

Zeroth law of thermodynamics

Kirchoff's law

Second law of the thermodynamics

First law of thermodynamic

Zeroth law of thermodynamics

Kirchoff's law

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Heat and Mass Transfer
The value of the wavelength for maximum emissive power is given by

Planck's law

Fourier's law

Stefan's law

Wien’s law

Planck's law

Fourier's law

Stefan's law

Wien’s law

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Heat and Mass Transfer
Which of the following would lead to a reduction in thermal resistance?

In conduction, reduction in the thickness of the material and an increase in thermal conductivity.

In radiation, increasing the temperature and reducing the emissivity.

In convection, stirring of the fluid and cleaning the heating surface.

All of these

In conduction, reduction in the thickness of the material and an increase in thermal conductivity.

In radiation, increasing the temperature and reducing the emissivity.

In convection, stirring of the fluid and cleaning the heating surface.

All of these

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Heat and Mass Transfer
In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

Parallel flow

All of these

Cross flow

Counter flow

Parallel flow

All of these

Cross flow

Counter flow

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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.)

P = 0, x = 1 and a = 0

P = 0, x = 0 and a = 1

X = 0, a + p = 0

P= 1, T = 0 and a = 0

P = 0, x = 1 and a = 0

P = 0, x = 0 and a = 1

X = 0, a + p = 0

P= 1, T = 0 and a = 0

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Heat and Mass Transfer

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 Heat transfer takes place as per

Heat and Mass Transfer The value of the wavelength for maximum emissive power is given by

Heat and Mass Transfer Which of the following would lead to a reduction in thermal resistance?

Heat and Mass Transfer In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

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 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
Heat transfer takes place as per

Heat and Mass Transfer
The value of the wavelength for maximum emissive power is given by

Heat and Mass Transfer
Which of the following would lead to a reduction in thermal resistance?

Heat and Mass Transfer
In a heat exchanger with one fluid evaporating or condensing, the surface area required is least in

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