The distance between the Sun and the Earth is | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(B) For thermal equilibrium, the power absorbed by the Earth from the Sun must equal the power radiated by the Earth.The power received by the Earth i

Vedclass · Accepted Answer

$300$

Vedclass · Answer

(B) For thermal equilibrium, the power absorbed by the Earth from the Sun must equal the power radiated by the Earth.The power received by the Earth is $P_{in} = \left( \frac{\sigma T_s^4 \cdot 4 \pi R_s^2}{4 \pi d^2} ight) \cdot \pi R_e^2$.The power radiated by the Earth is $P_{out} = e \sigma T_e^4 \cdot 4 \pi R_e^2$.Equating $P_{in} = P_{out}$:$\frac{\sigma T_s^4 R_s^2}{d^2} \cdot \pi R_e^2 = e \sigma T_e^4 \cdot 4 \pi R_e^2$Simplifying for $T_e^4$:$T_e^4 = \frac{T_s^4 R_s^2}{4 e d^2}$Given: $T_s = 6000 \ K$, $R_s = 7 	imes 10^5 \ km$, $d = 2 	imes 10^8 \ km$, $e = 0.6$.$T_e^4 = \frac{(6000)^4 \cdot (7 	imes 10^5)^2}{4 \cdot 0.6 \cdot (2 	imes 10^8)^2}$$T_e^4 = \frac{(6^4 	imes 10^{12}) \cdot (49 	imes 10^{10})}{2.4 \cdot (4 	imes 10^{16})}$$T_e^4 = \frac{1296 \cdot 49 \cdot 10^{22}}{9.6 \cdot 10^{16}} = \frac{63504}{9.6} 	imes 10^6 = 6615 	imes 10^6 = 6.615 	imes 10^9 \approx 81 	imes 10^8$$T_e = (81 	imes 10^8)^{1/4} = 3 	imes 10^2 = 300 \ K$.

The distance between the Sun and the Earth is $2 \times 10^{8} \ km$, the temperature of the Sun is $6000 \ K$, and the radius of the Sun is $7 \times 10^{5} \ km$. If the emissivity of the Earth is $0.6$, find the temperature of the Earth in thermal equilibrium (in $K$).

Similar Questions

Two black bodies at temperatures $327^{\circ} C$ and $427^{\circ} C$ are kept in an evacuated chamber at $27^{\circ} C$. The ratio of their rates of loss of heat are :

At $127^{\circ}C$,the radiated energy is $2.7 \times 10^{-3} \text{ J/s}$. At what temperature in $K$ is the radiated energy $4.32 \times 10^{6} \text{ J/s}$?

$A$ rectangular surface of a black body at $127^{\circ}C$ with dimensions $8 \ cm \times 4 \ cm$ emits energy at a rate of $E$. If the length and width are halved and the temperature is increased to $327^{\circ}C$,find the new rate of energy emission.

Compare the rate of loss of heat from a metal sphere at $627^{\circ} C$ with the rate of loss of heat from the same sphere at $327^{\circ} C$,if the temperature of the surrounding is $27^{\circ} C$. (nearly)

Two spheres of radii $4 \, m$ and $1 \, m$ have temperatures $2000 \, K$ and $4000 \, K$ respectively. Find the ratio of their emitted energy.

Vedclass Test Series

Exam Paper Generator

Online Exam Module