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 = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

tm = tm = (Δt1 - Δt2) loge (Δt1/Δt2)

tm = (Δt1 - Δt2)/ loge (Δt1/Δt2)

tm = loge (Δt1/Δt2)/ (Δt1 - Δt2)

tm = loge (Δt1 - Δt2)/ Δt1/Δt2

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Heat and Mass Transfer
Stefan Boltzmann law is applicable for heat transfer by

Conduction and radiation combined

Conduction

Radiation

Convection

Conduction and radiation combined

Conduction

Radiation

Convection

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Heat and Mass Transfer
Thermal conductivity of glass wool varies from sample to sample because of variation in

Porosity

All of these

Composition

Density

Porosity

All of these

Composition

Density

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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

None of these

Emissive power

Absorptive power

Emissivity

None of these

Emissive power

Absorptive power

Emissivity

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Heat and Mass Transfer
Fourier's law of heat conduction is (where Q = Amount of heat flow through the body in unit time, A = Surface area of heat flow, taken at right angles to the direction of heat flow, dT = Temperature difference on the two faces of the body, dx = Thickness of the body, through which the heat flows, taken along the direction of heat flow, and k = Thermal conductivity of the body)

k. (dT/dx)

k. A. (dx/dT)

k. A. (dT/dx)

k. (dx/dT)

k. (dT/dx)

k. A. (dx/dT)

k. A. (dT/dx)

k. (dx/dT)

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

Convection

Radiation

Conduction

Conduction and convection

Convection

Radiation

Conduction

Conduction and convection

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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 Stefan Boltzmann law is applicable for heat transfer by

Heat and Mass Transfer Thermal conductivity of glass wool varies from sample to sample because of variation in

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 The concept of overall coefficient of heat transfer is used in heat transfer problems 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
Stefan Boltzmann law is applicable for heat transfer by

Heat and Mass Transfer
Thermal conductivity of glass wool varies from sample to sample because of variation in

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
The concept of overall coefficient of heat transfer is used in heat transfer problems of