The simple answer is that the Sun is at its highest at noon, 12 o'clock midday.
A definition of "noon" is when the Sun is highest in the sky.
There are complications because of the Earth's elliptical orbit and tilted axis. So, the exact time when the Sun reaches its highest point varies a bit during the year.
Obviously, time zones and "daylight saving" have effects too.
On the 21st of June at the equator, the sun's altitude will be at its highest point, which is 90 degrees. This is known as the summer solstice, where the sun reaches its highest point in the sky.
On June 21, the summer solstice in the Northern Hemisphere, the sun reaches its highest point in the sky. At the equator, the sun will be directly overhead at noon, resulting in an altitude of 90 degrees. This phenomenon occurs because the sun's rays are perpendicular to the equator on this date.
The sun is at its highest point in the sky at the meridian, which occurs at solar noon. You can determine this by observing when the sun crosses an imaginary line running from north to south in the sky. At this time, shadows will be shortest, and the sun will be directly south (or north in the Southern Hemisphere) at its maximum altitude.
The altitude of the highest point of the rainbow that you see is (42 degrees) minus (the altitude of the sun above the horizon behind you). If the sun is sitting right on the horizon ... just risen or just about to set ... then the highest point of the rainbow is about 42 degrees above the horizon opposite the sun. If the sun is higher, then the rainbow is lower, by the same amount. If the sun is more than about 42 degrees above the horizon, then any rainbow you might otherwise see is entirely below the opposite horizon, and you don't see one.
When viewed from the equator, the Sun reaches its highest point in the sky at solar noon, which occurs when it is directly overhead at 90 degrees. This happens during the equinoxes, around March 21 and September 23, when the Sun is directly above the equator. During these times, the Sun's altitude is maximized, resulting in the shortest shadows.
On the 21st of June at the equator, the sun's altitude will be at its highest point, which is 90 degrees. This is known as the summer solstice, where the sun reaches its highest point in the sky.
The altitude of the sun is the angle between the sun and the observer's horizontal plane. It changes throughout the day as the sun rises and sets. At solar noon, when the sun is at its highest point in the sky, the altitude is its maximum.
At noon on June 21st at 41 degrees north latitude, the sun's altitude would be at its highest point of the day, which would be approximately 68.5 degrees above the horizon. This is the highest altitude the sun will reach in the sky during the summer solstice at this latitude.
For an observer at latitude 35 degrees, the highest the sun can ever be in his sky is roughly 31.5 degrees above the horizon.
The bar-headed goose flys at the highest altitude and reaches the highest altitude of any animal.
The sun's altitude refers to its angle above the horizon, measured in degrees. This angle varies throughout the day and changes with the seasons due to the tilt of the Earth's axis and its orbit around the sun. At solar noon, the sun reaches its highest point in the sky for that day, which is when its altitude is at its maximum. The altitude can be calculated using the observer's latitude, the date, and the time of day.
The sun reaches its highest point in the sky at solar noon, which is when it is directly overhead an observer at the Tropic of Cancer or the Tropic of Capricorn, depending on the time of year. This position is known as the sun's highest altitude or culmination.
On June 21, the summer solstice in the Northern Hemisphere, the sun reaches its highest point in the sky. At the equator, the sun will be directly overhead at noon, resulting in an altitude of 90 degrees. This phenomenon occurs because the sun's rays are perpendicular to the equator on this date.
Shadows change length throughout the year because the altitude of the Sun above the horizon changes. The altitude (height above the horizon) of the Sun changes as the Earth revolves around the Sun each year. This is due to Earth's axis being at an angle. In the Northern Hemisphere, the North Pole is pointing away from the Sun on the winter solstice (around Dec. 21) and for the Northern Hemisphere the Sun is at its lowest altitude and shadows will be the longest of the year. On summer solstice (June 21), the Sun is at its highest altitude and shadows are the shortest of the year. Janice VanCleave
La Rinconada, Peru has the highest altitude in the world at 5,099 meters.
both september and march because they both contain equinoxes which is when the sun is at the highest altitude
On June 21, during the summer solstice in the Northern Hemisphere, the sun reaches its highest point in the sky. At 23.5 degrees latitude, the sun's altitude at solar noon will be approximately 90 degrees (directly overhead) minus the latitude, which results in an altitude of about 66.5 degrees. This means the sun will be significantly high in the sky, providing long daylight hours and intense sunlight.