The time constant of a thermocouple is

Heat and Mass Transfer
The time constant of a thermocouple is

The time taken to attain the final temperature to be measured

The time taken to attain 63.2% of the value of initial temperature difference

The time taken to attain 50% of the value of initial temperature difference

Determined by the time taken to reach 100°C from 0°C

The time taken to attain the final temperature to be measured

The time taken to attain 63.2% of the value of initial temperature difference

The time taken to attain 50% of the value of initial temperature difference

Determined by the time taken to reach 100°C from 0°C

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Heat and Mass Transfer
When heat is transferred from one particle of hot body to another by actual motion of the heated particles, it is referred to as heat transfer by

Conduction and convection

Convection

Radiation

Conduction

Conduction and convection

Convection

Radiation

Conduction

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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 = 0, ρ = 1 and τ = 0

α = 1, ρ = 0 and τ = 0

α + ρ = 1 and τ = 0

α = 0, ρ = 0 and τ = 1

α = 0, ρ = 1 and τ = 0

α = 1, ρ = 0 and τ = 0

α + ρ = 1 and τ = 0

α = 0, ρ = 0 and τ = 1

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Heat and Mass Transfer
The emissive power of a body depends upon its

All of these

Physical nature

Wave length

Temperature

All of these

Physical nature

Wave length

Temperature

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Heat and Mass Transfer
According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to

Fourth power of absolute temperature

Fourth power of temperature

Absolute temperature

Square of temperature

Fourth power of absolute temperature

Fourth power of temperature

Absolute temperature

Square of temperature

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Heat and Mass Transfer
The critical radius is the insulation radius at which the resistance to heat flow is

Zero

None of these

Maximum

Minimum

Zero

None of these

Maximum

Minimum

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Heat and Mass Transfer

Heat and Mass Transfer The time constant of a thermocouple is

Heat and Mass Transfer When heat is transferred from one particle of hot body to another by actual motion of the heated particles, it is referred to as heat transfer by

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

Heat and Mass Transfer The emissive power of a body depends upon its

Heat and Mass Transfer According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to

Heat and Mass Transfer The critical radius is the insulation radius at which the resistance to heat flow is

Heat and Mass Transfer
The time constant of a thermocouple is

Heat and Mass Transfer
When heat is transferred from one particle of hot body to another by actual motion of the heated particles, it is referred to as heat transfer by

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

Heat and Mass Transfer
The emissive power of a body depends upon its

Heat and Mass Transfer
According to Stefan Boltzmann law, ideal radiators emit radiant energy at a rate proportional to

Heat and Mass Transfer
The critical radius is the insulation radius at which the resistance to heat flow is