Most likely because the Sun is constantly performing nuclear fusion, while Earth is not.
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.
Sun provides heat to earth's surface. It provides thermal energy to the earth.
No, the Earth and the Sun are not in thermal contact in the traditional sense. The Sun emits electromagnetic radiation which carries heat and light to the Earth through space. The Earth absorbs this radiation and warms up as a result.
The Earth is not in thermal equilibrium with the Sun because the Earth receives energy from the Sun in the form of sunlight but also radiates energy back into space in the form of infrared radiation. This continuous exchange of energy maintains a temperature difference between the Earth and the Sun, preventing thermal equilibrium. Additionally, factors such as the Earth's atmosphere, albedo, and distance from the Sun also contribute to the lack of thermal equilibrium.
the sun transfer the heat to earth by radiation of heat
No antil it hits erth then it turns into thermal energy.
convection!
This is thermal radiation of the Sun.
Thermal energy from the sun reaches the Earth through radiation. The sun emits electromagnetic radiation, including visible light and infrared radiation, which travels through the vacuum of space and heats the Earth's atmosphere and surface upon contact.
The major source of thermal energy on Earth is the Sun. The Sun emits heat and light through nuclear fusion, which warms the Earth's surface. This energy is essential for sustaining life and driving the Earth's climate systems.
No. Convection requires a medium to carry thermal energy from one place to another. There is no or not enough of any material in space to accomplish this. Radiation will carry thermal energy from the sun to the Earth.