The value of the wavelength for maximum emissive power is given by

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

Fourier's law

Wien’s law

Stefan's law

Planck's law

Fourier's law

Wien’s law

Stefan's law

Planck's law

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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 = [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)

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)]

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Heat and Mass Transfer
The amount of radiation mainly depends upon the

Type of surface of the body

Temperature of the body

Nature of the body

All of these

Type of surface of the body

Temperature of the body

Nature of the body

All of these

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Heat and Mass Transfer
A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

(h₁.h₂.h₃)1/3

1/h₁ + 1/h₂ + 1/h₃

h₁ + h₂ + h₃

None of these

(h₁.h₂.h₃)1/3

1/h₁ + 1/h₂ + 1/h₃

h₁ + h₂ + h₃

None of these

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Heat and Mass Transfer
The insulation ability of an insulator with the presence of moisture would

May increase/decrease depending on temperature and thickness of insulation

Remain unaffected

Decrease

Increase

May increase/decrease depending on temperature and thickness of insulation

Remain unaffected

Decrease

Increase

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Heat and Mass Transfer
The expression Q = ρ AT4 is called

Newton Reichmann equation

Fourier equation

Stefan-Boltzmann equation

Joseph-Stefan equation

Newton Reichmann equation

Fourier equation

Stefan-Boltzmann equation

Joseph-Stefan equation

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Heat and Mass Transfer

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

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 amount of radiation mainly depends upon the

Heat and Mass Transfer A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

Heat and Mass Transfer The insulation ability of an insulator with the presence of moisture would

Heat and Mass Transfer The expression Q = ρ AT4 is called

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

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 amount of radiation mainly depends upon the

Heat and Mass Transfer
A cube at high temperature is immersed in a constant temperature bath. It loses heat from its top, bottom and side surfaces with heat transfer coefficients of h₁, h₂ and h₃ respectively. The average heat transfer coefficient for the cube is

Heat and Mass Transfer
The insulation ability of an insulator with the presence of moisture would

Heat and Mass Transfer
The expression Q = ρ AT4 is called