because the earth and the sun is not in the thermal contact with each other that is why the earth & the sun is not in thermal equilibrium.
Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.
Sun's gravitational force keeps all the planets bound to the sun
While the earth and the sun are roughly at steady state (the output of the sun stays fairly constant and the earth absorbs the energy from it at a fairly constant rate) they are not in equilibrium. To be at equilibrium, they would have to be sending out and receiving equal amounts of energy and mass. The sun sends out far more energy than the earth as well as dumping a lot more mass, in the form of "solar winds" than the earth ever does - thus they are not in equilibrium.
it keeps the sun alive
because the earth and the sun is not in the thermal contact with each other that is why the earth & the sun is not in thermal equilibrium.
because the earth and the sun is not in the thermal contact with each other that is why the earth & the sun is not in thermal equilibrium.
Dynamic equilibrium.
To be in thermal equilibrium, it would have to have the same temperature. (It isn't.)
The Sun's gravity keeps the planets orbiting the Sun.
You mean 'keeps in the orbit of the sun? Gravitational force of attraction keeps the earth going around the sun.
In equilibrium.
Gravitation keeps the planets from being pulled into the Sun.
Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.
Sun's gravitational force keeps all the planets bound to the sun
While the earth and the sun are roughly at steady state (the output of the sun stays fairly constant and the earth absorbs the energy from it at a fairly constant rate) they are not in equilibrium. To be at equilibrium, they would have to be sending out and receiving equal amounts of energy and mass. The sun sends out far more energy than the earth as well as dumping a lot more mass, in the form of "solar winds" than the earth ever does - thus they are not in equilibrium.
While the earth and the sun are roughly at steady state (the output of the sun stays fairly constant and the earth absorbs the energy from it at a fairly constant rate) they are not in equilibrium. To be at equilibrium, they would have to be sending out and receiving equal amounts of energy and mass. The sun sends out far more energy than the earth as well as dumping a lot more mass, in the form of "solar winds" than the earth ever does - thus they are not in equilibrium.