Depending on the radiating properties, body will be transparent when (Where a = absorptivity, p = reflectivity, x = transmissivity)

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

P = 0, x = 0 and a = 1

P=1, x = 0, and a = 0

X = 0, a + p = 1

P = 0, x= 1, and a = 0

P = 0, x = 0 and a = 1

P=1, x = 0, and a = 0

X = 0, a + p = 1

P = 0, x= 1, and a = 0

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Heat and Mass Transfer
When α is absorptivity, ρ is reflectivity and τ is transmissivity, then for a diathermanous body,

α + ρ = 1 and τ = 0

α = 0, ρ = 1 and τ = 0

α = 1, ρ = 0 and τ = 0

α = 0, ρ = 0 and τ = 1

α + ρ = 1 and τ = 0

α = 0, ρ = 1 and τ = 0

α = 1, ρ = 0 and τ = 0

α = 0, ρ = 0 and τ = 1

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Heat and Mass Transfer
A heat exchanger with heat transfer surface area A and overall heat transfer coefficient U handles two fluids of heat capacities Cmax and Cmin. The number of transfer units (NTU) used in the analysis of heat exchanger is specified as

U/A.Cmin

U/Cmin

U.Cmin

Cmin/U

U/A.Cmin

U/Cmin

U.Cmin

Cmin/U

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Heat and Mass Transfer
Cork is a good insulator because it has

Atoms colliding frequency

Low density

Porous body

Free electrons

Atoms colliding frequency

Low density

Porous body

Free electrons

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Heat and Mass Transfer
Thermal conductivity of a material may be defined as the

Quantity of heat flowing in one second through one cm cube of material when opposite faces are maintained at a temperature difference of 1°C

All of these

Heat conducted in unit time across unit area through unit thickness when a temperature difference of unity is maintained between opposite faces

Quantity of heat flowing in one second through a slab of the material of area one cm square, thickness 1 cm when its faces differ in temperature by 1°C

Quantity of heat flowing in one second through one cm cube of material when opposite faces are maintained at a temperature difference of 1°C

All of these

Heat conducted in unit time across unit area through unit thickness when a temperature difference of unity is maintained between opposite faces

Quantity of heat flowing in one second through a slab of the material of area one cm square, thickness 1 cm when its faces differ in temperature by 1°C

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Heat and Mass Transfer
The heat transfer takes place according to

Second law of thermodynamics

Zeroth law of thermodynamics

Kirchhoff's law

First law of thermodynamics

Second law of thermodynamics

Zeroth law of thermodynamics

Kirchhoff's law

First law of thermodynamics

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Heat and Mass Transfer

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

Heat and Mass Transfer When α is absorptivity, ρ is reflectivity and τ is transmissivity, then for a diathermanous body,

Heat and Mass Transfer A heat exchanger with heat transfer surface area A and overall heat transfer coefficient U handles two fluids of heat capacities Cmax and Cmin. The number of transfer units (NTU) used in the analysis of heat exchanger is specified as

Heat and Mass Transfer Cork is a good insulator because it has

Heat and Mass Transfer Thermal conductivity of a material may be defined as the

Heat and Mass Transfer The heat transfer takes place according to

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

Heat and Mass Transfer
When α is absorptivity, ρ is reflectivity and τ is transmissivity, then for a diathermanous body,

Heat and Mass Transfer
A heat exchanger with heat transfer surface area A and overall heat transfer coefficient U handles two fluids of heat capacities Cmax and Cmin. The number of transfer units (NTU) used in the analysis of heat exchanger is specified as

Heat and Mass Transfer
Cork is a good insulator because it has

Heat and Mass Transfer
Thermal conductivity of a material may be defined as the

Heat and Mass Transfer
The heat transfer takes place according to