A black body radiates heat energy at the rate of 2 x 10 Js" m' at a temperature of 127° C. The temperature

of the black body at which the rate of heat radiation is 32 x 105 Js'1 m2

is

Question

Cecelia Gates

Physics

14 January, 02:22

A black body radiates heat energy at the rate of 2 x 10 Js" m' at a temperature of 127° C. The temperature

of the black body at which the rate of heat radiation is 32 x 105 Js'1 m2

is

+3

Answers (1)

Know the Answer?

Eleanor · Answer 1

527 ° C

Explanation:

For black body radiation, the power emitted per unit area is directly proportional to the absolute temperature raised to the fourth power:

j = k T⁴

First, convert 127° C to Kelvins:

127° C + 273.15 = 400.15 K

Now find the constant of variation:

2*10⁵ = k (400.15) ⁴

k = 7.80*10⁻⁶

Finally, solve for the temperature at the new rate of radiation:

32*10⁵ = (7.80*10⁻⁶) T⁴

T = 800.3

The temperature is 800 K, or about 527 ° C.

A black body radiates heat energy at the rate of 2 x 10 Js" m' at a temperature of 127° C. The temperatureof the black body at which the rate of heat radiation is 32 x 105 Js'1 m2is

A black body radiates heat energy at the rate of 2 x 10 Js" m' at a temperature of 127° C. The temperature

of the black body at which the rate of heat radiation is 32 x 105 Js'1 m2

is