The poles of the Sun, particularly the solar magnetic poles, significantly influence solar activity, including solar flares and coronal mass ejections. These phenomena can impact space weather, affecting satellite operations, communication systems, and even power grids on Earth. Additionally, the solar magnetic field's cyclical changes can influence the solar cycle, which has an 11-year periodicity, affecting the intensity of solar radiation and solar wind.
The sun's rays will strike land closer to both poles at a shallow angle, and lose much of its heat.
at the poles
The atmosphere does not affect the sun. If anything the sun affects the atmosphere.
It is because the North and South Poles don't point right at the Sun, as the Equator does, being on the top of the Earth the poles cannot get the direct rays from the Sun. But, the Equator can because it is always pointing towards the Sun, thus, getting more solar energy. Hope this helped.
It is effectively the same distance from both.
the poles effect it beacuse it can attract the poles
They are not as near the sun.
Yes.
Because the poles tilt towards the sun in summer the North and South Poles have six months when the sun is visible day and night.
The sun's rays will strike land closer to both poles at a shallow angle, and lose much of its heat.
the sun's rays strike the water at a angle at the poles APEX
In the north pole becuase of the angle that the earth is
at the poles
No, the sun does not have an iron core to generate magnetic poles
Surface features of the sun, such as sunspots and solar flares, can impact Earth's magnetosphere and ionosphere, causing disruptions in communication systems and power grids. Increased solar activity can also lead to the intensification of the auroras at the poles. Additionally, variations in the sun's ultraviolet radiation can affect Earth's climate and ozone layer.
Because the poles are at no point directed straght towards the sun, its due to the Earth being upright (with a small tilt) as it circles the sun. The sun will never be directly overhead outside the tropics.
at the poles