The sun is higher in the sky at noon in the summer due to the tilt of the Earth's axis. During summer in the Northern Hemisphere, the North Pole is tilted toward the sun, resulting in longer days and a higher sun angle. This angle causes the sun to reach its peak point in the sky at noon during the summer months.
The shadow cast by the sun is longer in the winter in Alaska due to the lower position of the sun in the sky. This creates longer shadows compared to the summer when the sun is higher in the sky.
The sun appears to transit the southern sky when viewed from the northern hemisphere due to the Earth's axial tilt. This tilt causes the sun's position in the sky to vary throughout the year, with the sun appearing higher in the sky during the summer and lower in the sky during the winter.
The only distinctive property of the Sun's position in the sky during the summer is that it is higher above the horizon at any given time of day. This results in its rays being more concentrated and therefore effectively warmer, resulting in the characteristic high temperatures of summer. As a result of being higher above the horizon the days (daylight hours) are also longer, further increasing the heating effect. These distinctions are effectively lost in the tropics where the the sun is always high in the sky and the days about the same length.
The path of the sun in summer is higher in the sky, resulting in longer days and more direct sunlight. In winter, the sun's path is lower, leading to shorter days and less intense sunlight. This difference in the sun's path is a result of the tilt of Earth's axis as it orbits the sun.
because the earht spins on its axis
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 sun is higher in the sky at noon in the summer due to the tilt of the Earth's axis. During summer in the Northern Hemisphere, the North Pole is tilted toward the sun, resulting in longer days and a higher sun angle. This angle causes the sun to reach its peak point in the sky at noon during the summer months.
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
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.
We have more hours of daylight in the summer because the sun is higher in the sky.
Yes, combined with the higher altitude of the Sun in the sky.
The sun reaches its highest elevation at the moment that summer begins.
The sun's zenith is higher in the sky during the summer months, regardless of which hemisphere you are in. At the 45th parallel the sun will rise to about 45° at high noon.
The answer is the angle of the sun. When the sun is higher in the sky you get more heat per given area.
In the summer the sun is highest in the sky