A blackbody of sarface area `10cm^(2) is heated to `127^(@)C` and is suspended in a room at temperature `27^(@)C` calculate the initial rate of loss of heat from the body to the room.
Text Solution
Verified by Experts
For a blackbody at temperature T, the rate of emission is `u=sigmaAT^(4)` . When it is kept in a room at temperature `T_(0)`, the rate of absorption is `u_(0)=sigmaA(T^(4)-(t^(4)0)` .Here `A=10xx10^(4)m^(2)` , `T=400K` and `T_(0)=300K` . Thus, `u-u_(0)` `=(5.67xx10^(-8)Wm^(-2)K^(-4)(10xx10^(-4)m^(2))(400^(4)-(300^(4))K^(4)` `=0.99W`.
Topper's Solved these Questions
HEAT TRANSFER
HC VERMA|Exercise Worked Out Examples|20 Videos
HEAT TRANSFER
HC VERMA|Exercise Short Answer|11 Videos
HEAT AND TEMPERATURE
HC VERMA|Exercise Exercise|4 Videos
INTRODUCTION TO PHYSICS
HC VERMA|Exercise Exercises|19 Videos
Similar Questions
Explore conceptually related problems
A black body with surface area 0.001 m^(2) is heated upto a temperature 400 K and is suspended in a room temperature 300K. The intitial rate of loss of heat from the body to room is
A body of emissivity (e = 0.75) , surface area of 300cm^(2) and temperature 227^(@)C is kept in a room at temperature 27^(@)C . Calculate the initial value of net power emitted by the body.
A metallic ball of surface area 300 cm^2 at a temperature of 227^@C is placed in a container at 27^@C . Calculate the rate of loss of heat radiation by the ball if emissivity of ball is 0.3, sigma = 5.67 xx 10^(-5) erg cm^(-2) s^(-1) K^(-4) .
A metal ball of surface area 200 cm^(2) and temperature 527^(@)C is surrounded by a vessel at 27^(@)C . If the emissivity of the metal is 0.4, then the rate of loss of heat from the ball is (sigma = 5.67 xx10^(-8)J//m^(2)-s-k^(4))
A blackbody of surface area 1cm^(2) is placed inside an enclosure. The enclosure has a constant temperature 27(@)C and the blackbody is maintained at 327(@)C by heating it electrically. What electric power is needed to maintain the temperature? sigma=6.0xx10^(-s)Wm^(-2)K(-2) .
A black body at a temperature of 127^(@)C raidates heat at the rate of 1cal//cm xx sec . At a temperature of 527^(@)C the rate of heat radiation from the body in (cal//cmxx sec) will be
A metal ball of mass 2kg is heated means of a 40W heater in a room at 25^(@)C . The temperature of the ball beomes steady at 60^(@)C . Find the rate of loss of heat to the surrounding when the ball is at 60^(@)C .
