At 12pm(noon) the sun is just on the earth's equator.At this time if any person living in equatrial country see the sun,he will find it quite on his head i.e.in upward and not in any direction.
In the same time if a person in northen hemisphere(Asia,Europe,North America) sees the sun,he will find it up,but a little southwards.This 'a little' increases with increase in the distance between him and equator.So we get more light in the south
direction.
Similarly reative to the equator in sourthen hemisphere(Australia,lower Africa and Australia) we find sun a little northwards in the sky.So we get more light in north direction(because sun is there).Hence the norhern side of houses or trees gets more light.
The Aurora Australis, also known as the Southern Lights, is a natural light display in the Earth's southern hemisphere. It occurs when charged particles from the sun interact with the Earth's magnetic field and create stunning displays of light in the sky, similar to the Northern Lights in the northern hemisphere.
Temperature wise, in warm environments, the basement would be the coolest part of the house. Socially speaking, the coolest part of a house would be the game room or entertainment room.
The March and September equinoxes are similar in that both mark the points in the year when day and night are approximately equal in length across the globe. They occur when the sun is directly above the equator, resulting in this balance of light. Additionally, both equinoxes signify the transition between seasons: the March equinox heralds the arrival of spring in the Northern Hemisphere and autumn in the Southern Hemisphere, while the September equinox marks the onset of autumn in the Northern Hemisphere and spring in the Southern Hemisphere.
The northern lights are light you can see in the sky. They are created be solar storms. The storms hit the atmosphere and are forced to the poles. The storms mix with oxygen and tern into colours and that is what you see.
The diffraction of light from thesunto form arainbowrelies on the sun being behind the observer.In general terms when you are in the northern hemisphere the sun is always south of you, even if its by a tiny amount, so the rainbow will always be north of you. This means you will not see a rainbow (caused by the sun) in the southern sky.To be absolutely accurate however due to the axial tilt of the earth there is a zone near theequatorwhere the sun is in fact slightly north of you for about half the year and you are still in the northern hemisphere (which comes from the position of the equator not the sun). In this zone it is possible so see a rainbow in the southern sky.
Aurora Borealis for the northern ones, and Aurora Australis for the southern ones.
During the winter solstice in the northern hemisphere the 23 parallel in the southern hemisphere is receiving the most direct sunlight.
They are related to seasons because of the tilt. When the Earth tilts the sun faces the Southern Hemisphere so since the nothern hemisphere has no light we have summer in the southern, but when the sun moves in to the northern hemisphere we have winter.
The dancing lights of the ionosphere are known as auroras. In the Northern Hemisphere they are called the Aurora Borealis or Northern Lights. In the Southern Hemisphere they are known as the Aurora Australialis or Southern Lights.
Yes, there are more visible stars in the southern hemisphere than in the northern hemisphere because the southern hemisphere has fewer large cities and less light pollution, which allows for better visibility of stars. Additionally, the southern hemisphere has the center of the Milky Way galaxy, which contains more stars than the outer regions where the northern hemisphere is situated.
From March 21 until about September 21, the Earth's northern hemisphere is tilted towardthe sun, and receives more sun light on any day than the southern hemisphere does.
The Aurora. In the northern hemisphere it is named 'The Aurora Borealis' ( Latin for Northern Lights) In the southern hemisphere it is named ' Tha Aurora Australis'. ( Latin for Southern Lights).
They are related to seasons because of the tilt. When the Earth tilts the sun faces the Southern Hemisphere so since the nothern hemisphere has no light we have summer in the southern, but when the sun moves in to the northern hemisphere we have winter.
In the northern hemisphere, he days are longer in June and July. The days are longer in December and January in the southern hemisphere.
Some constellations visible in the northern hemisphere include Ursa Major, Cassiopeia, and Orion. In the southern hemisphere, constellations like Crux, Scorpius, and Centaurus are prominent. These constellations are best viewed during their respective seasons and from locations with minimal light pollution.
They are related to seasons because of the tilt. When the Earth tilts the sun faces the Southern Hemisphere so since the nothern hemisphere has no light we have summer in the southern, but when the sun moves in to the northern hemisphere we have winter.
They are related to seasons because of the tilt. When the Earth tilts the sun faces the Southern Hemisphere so since the nothern hemisphere has no light we have summer in the southern, but when the sun moves in to the northern hemisphere we have winter.