The rate of emission of a black body at ...

The rate of emission of a black body at `0^(@)C` is its rate of emission at `273^(@)C` is

4 R

8 R

16 R

32 R

Text Solution

Verified by Experts

The correct Answer is:

As we know , `RpropT^(4)`
`therefore" " (R')/(R)=(273+273)^(4)/(273+0)^(4)=(16xx(273)^(4))/(273)^(4)`
`rArr" " R'=16 R`

Topper's Solved these Questions

KINETIC THEORY OF GASES ANDRADIATION
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise Exercise 2|50 Videos
KINETIC THEORY OF GASES ANDRADIATION
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET Corner|40 Videos
KINETIC THEORY OF GASES ANDRADIATION
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET Corner|40 Videos
INTERFERENCE AND DIFFRACTION OF LIGHT
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET Corner|24 Videos
MAGNETIC EFFECT OF ELECTRIC CURRENT
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET CORNER|20 Videos

Similar Questions

Explore conceptually related problems

If the emission rate of a blackbody at 0 ^@C is R , then the rate of emission at 273^@C is

The rate of emission of radiation of a black body at 273^(@)C is E , then the rate of emission of raidiation of this body at 0^(@)C will be

The rate of radiation from a black body at 1^(@)C is E The rate of radiation from this black body at 273^(@)C is .

Compare the rates of emission of heat by a blackbody maintained at 627 ""^(@)C and at 127 ""^(@)C , if the blackbodies are surrounded by an enclosure at 27 ""^(@)C . What would be the ratio of their rates of loss of heat?

The rate of radiation of a black body at 0° C is EJ/sec . The rate of radiation of this black body at 273(@)C will be

The ratio of rates of emission of heat by a black body at 367^@" at " 207^(@)C is nealy

The rate of dissipation of heat by a black body at temperature T is Q . What will be the the rate of dissipation of heat by another body at temperature 2T and emissivity 0.25 ?

A black body at 127^(@)C emits the energy at the rate of 10^(6)J//m^(2) s the temperature of a black body at which the rate of energy emission is 16 xx 10^(6)J//m^(2)s is .

MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS-KINETIC THEORY OF GASES ANDRADIATION-Exercise 1

Consider a black body radiation in a cubical box at absolute temperatu...
Text Solution
|
When a gas filled in a closed vessel is heated through 1^(@)C, its pre...
Text Solution
|
An inflated rubber balloon contains one mole of an ideal gas has a pre...
Text Solution
|
The total radiant energy per unit area, normal to the direction of inc...
Text Solution
|
At 273^(@)C ,the emissive power of a perfect black body is R . What ...
Text Solution
|
A black body at 227^(@)C radiates heat at the rate of 7 cal cm^(-2) s...
Text Solution
|
The rate of emission of a black body at 0^(@)C is its rate of emissio...
Text Solution
|
Two spherical black bodies of radii R(1) and R(2) and with surface tem...
Text Solution
|
A solid cube and a solid sphere of the same material have equal surfac...
Text Solution
|
Two gases A and B having the same temperature T, same pressure P and s...
Text Solution
|
The rectangular surface of area 8 cm xx 4 cm of a black body at temper...
Text Solution
|
The air density at mount Everest is less than that at the sea level . ...
Text Solution
|
The temperature of a black body is increased by 50% , then the percent...
Text Solution
|
The frequency (v(m)) corresponding to which energy emitted by a black...
Text Solution
|
A kettle with 2 litre water at 27^@C is heated by operating coil heate...
Text Solution
|
An object is cooled from 75^(@)C to 65^(@)C in 2 min in a room at 30^(...
Text Solution
|
A planet is at an average distance d from the sun and its average surf...
Text Solution
|
The power of black body at temperature 200 K is 544 W .Its surface are...
Text Solution
|
The wavelength of maximum intensity of radiation emitted by a star is ...
Text Solution
|
A body cools from 80^(@)C to 50^(@)C in 5 min-utes Calculate the time ...
Text Solution
|