Because of the tilt of Earth's axis.
The earth's tilt is a constant 23.5 degrees perpendicular. The earth's position relative to the sun changes, not the tilt itself, during orbit. The sun is higher in the sky throughout summer because the north pole is tilted 23.5 degrees toward the sun and because we are in the northern hemisphere, the sun is higher in the sky. during winter, the south pole is tilted 23.5 degrees to the sun making the sun lower in the U.S. sky.
It has to do with the tilt of the Earth upon its axis.
The answer lies in the earth's rotation about its tilted axis and it orbit around the sun. ... During summer, the North Pole is tilted towards the sun. As a consequence, the sun's path is higher in the sky, causing the northern hemisphere to receive more light and heat.
The sun reaches its highest elevation at the moment that summer begins.
The winter night sky is the opposite direction from the summer night sky. The constellations you see in winter are on the other side of the sun in summer, so you would only see them in summer during a total solar eclipse.
Sol means sun and stice means standing still. Until 21 June or so, the days get longer and the sun is higher in the sky each midday. After 21 June or so, the days get shorter and the sun is lower in the sky each midday. So it looks like the sun stopped moving North at the summer solstice. The reason this occurs is another story. ________ the only reason that this happens is that the earth is tilted to it's axis while it is revolving around the sun. if the earth is perpendicular to it's axis in relation to the sun, then there would never be summer or winter soltices.
In the Northern Hemisphere the curve would be higher, in the Southern Hemisphere it would be lower.
The white stuff that often falls from the sky in the winter time made of water and crystalized ice. This mixture must stay a at least thirty five degree or lower.
Because of the tilt of Earth's axis.
The sun reaches its highest elevation at the moment that summer begins.
why the sun is higher in summer is because the earths top of the axis is pointed to the sun which makes this hotter and in winter the axis is pointed away from the sun which makes it colder
the sun is higher in the sky in the summer than in the winter
In the summer, the sun is higher in the sky, casting shadows that are shorter. In the winter, the sun is lower in the sky, creating longer shadows. This difference in the angle of the sun's rays causes the length of shadows to vary between the seasons.
The Earth's axis tilt is responsible.
Yes, the time of year can affect the length of your shadow. In the summer, when the sun is higher in the sky, shadows are shorter compared to the longer shadows cast during winter when the sun is lower in the sky.
During the summer your shadow can appear to be shorter. This appearance is in direct relation to the Earth's rotation around the sun.
During summer, the Sun is above the horizon for more hours. Also, it gets higher in the sky.
In the summer - or more specifically, on the summer solstice (June 21 in the northern hemisphere, December 21 in the southern hemisphere) the noon Sun is as high in the sky as it will get. If the Sun were directly overhead, you would cast no shadow at all. As summer progresses into fall, the noon Sun will be lower and lower in the sky until the winter solstice, when the noon Sun is low in the sky, and the noon shadows will be longer.
The earth's tilt is a constant 23.5 degrees perpendicular. The earth's position relative to the sun changes, not the tilt itself, during orbit. The sun is higher in the sky throughout summer because the north pole is tilted 23.5 degrees toward the sun and because we are in the northern hemisphere, the sun is higher in the sky. during winter, the south pole is tilted 23.5 degrees to the sun making the sun lower in the U.S. sky.
Because in the summer the constellation would be in the daytime sky.