The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer
The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Q = [2π (T₁ - T₂)]/2.3 lk log (r₂/r₁)

Q = = 2πlk/2.3 (T₁ - T₂) log (r₂/r₁)

Q = 2.3 log (r₂/r₁)/[2πlk (T₁ - T₂)]

Q = [2πlk (T₁ - T₂)]/2.3 log (r₂/r₁)

Q = [2π (T₁ - T₂)]/2.3 lk log (r₂/r₁)

Q = = 2πlk/2.3 (T₁ - T₂) log (r₂/r₁)

Q = 2.3 log (r₂/r₁)/[2πlk (T₁ - T₂)]

Q = [2πlk (T₁ - T₂)]/2.3 log (r₂/r₁)

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Heat and Mass Transfer
The rate of energy emission from unit surface area through unit solid angle, along a normal to the surface, is known as

Transmissivity

Intensity of radiation

Reflectivity

Emissivity

Transmissivity

Intensity of radiation

Reflectivity

Emissivity

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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

All of these

Cross flow

Counter flow

Parallel flow

All of these

Cross flow

Counter flow

Parallel flow

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Heat and Mass Transfer
Film coefficient is defined as Inside diameter of tube

Thermal conductivity Molecular diffusivity of momentum Thermal diffusivity

Equivalent thickness of film

Film coefficient × Inside diameter Thermal conductivity

Thermal conductivity Equivalent thickness of film Specific heat × Viscosity

Thermal conductivity Molecular diffusivity of momentum Thermal diffusivity

Equivalent thickness of film

Film coefficient × Inside diameter Thermal conductivity

Thermal conductivity Equivalent thickness of film Specific heat × Viscosity

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Heat and Mass Transfer
The product of Reynolds number and Prandtl number is known as

Stanton number

Peclet number

Biot number

Grashoff number

Stanton number

Peclet number

Biot number

Grashoff number

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Heat and Mass Transfer
According to Wien's law, the wavelength corresponding to maximum energy is proportion to

Absolute temperature (T)

I²

T

F

Absolute temperature (T)

I²

T

F

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Heat and Mass Transfer

Heat and Mass Transfer The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer The rate of energy emission from unit surface area through unit solid angle, along a normal to the surface, is known as

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 Film coefficient is defined as Inside diameter of tube

Heat and Mass Transfer The product of Reynolds number and Prandtl number is known as

Heat and Mass Transfer According to Wien's law, the wavelength corresponding to maximum energy is proportion to

Heat and Mass Transfer
The heat transfer by conduction through a thick cylinder (Q) is given by (where T₁ = Higher temperature, T₂ = Lower temperature, r₁ = Inside radius, r₂ = Outside radius, l = Length of cylinder, and k = Thermal conductivity)

Heat and Mass Transfer
The rate of energy emission from unit surface area through unit solid angle, along a normal to the surface, is known as

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
Film coefficient is defined as Inside diameter of tube

Heat and Mass Transfer
The product of Reynolds number and Prandtl number is known as

Heat and Mass Transfer
According to Wien's law, the wavelength corresponding to maximum energy is proportion to