Energy is transferred between the core and the radiative zone in the sun. In the core, nuclear fusion converts hydrogen into helium, releasing massive amounts of energy. This energy then moves outward through the radiative zone via photons.
The convection zone.
Energy is transformed between atoms in the radiative zone of the sun. In this layer, energy moves through the absorption and re-emission of photons by atoms. This process creates a gradient of temperature and density as energy is slowly transferred from the core to the surface of the sun.
The Radiative Zone.
The Radiative Zone.
The layer of the Sun's interior where energy is transferred mainly by electromagnetic radiation is the radiative zone. In this region, energy is transported by the absorption and re-emission of photons as they move through the dense plasma of the Sun's core. Once the energy reaches the convective zone, it is then carried by the motion of hot plasma cells.
The convection zone.
The convection zone
Energy is transformed between atoms in the radiative zone of the sun. In this layer, energy moves through the absorption and re-emission of photons by atoms. This process creates a gradient of temperature and density as energy is slowly transferred from the core to the surface of the sun.
In the convection Zone!
The Radiative Zone.
The Radiative Zone.
The Radiative Zone.
The Radiative Zone.
The Radiative Zone.
The Radiative Zone.
It is transferred by the energy of photons and heat radiation. Convection doesnt work as there is vacuum between sun and earth.
It is transferred by the energy of photons and heat radiation. Convection doesnt work as there is vacuum between sun and earth.