Solar maximum can occur up to 42 degrees north of the equator as it did in 1859.
Yes, the maximum value of acceleration due to gravity (g) is at the equator because the centrifugal force due to the Earth's rotation reduces the effective gravitational force. This results in a maximum g value at the equator compared to other latitudes.
Because over a long period of time, the sun appears to wiggle back and forth, north and south, between the Tropic of Cancer (23 degrees north latitude) and the Tropic of Capricorn (23 degrees south latitude), making a complete wiggle in one year. In the course of that process, it crosses the equator twice, and when it does, the equator experiences maximum solar radiation. Actually, when you think about it, EVERY spot on Earth that's anywhere between the Tropics of Cancer and Capricorn receives two peaks of solar radiation during a year.
Maximum inclination of moon's orbit to the ecliptic = 5.3°Current inclination of the ecliptic to the celestial equator = 23.4°Moon's maximum declination = 5.3° + 23.4° = + 28.7°Maximum altitude of the celestial equator at 42° north latitude = 90° - 42° = 48°Moon's maximum altitude at 42° north latitude = 48° + 28.7° = 76.7°
The two periods of maximum solar radiation at the equator occur when the Sun is directly overhead at the Tropic of Cancer and the Tropic of Capricorn. During these times, the Sun's rays strike the equator most directly, resulting in maximum solar radiation.
The equator, which is at 0 degrees latitude, receives the most intense solar energy on March 21 and September 22 due to being closest to the sun during the equinoxes. At this time, the sun is directly overhead at noon at the equator, providing maximum solar energy.
Solar maximum can occur up to 42 degrees north of the equator as it did in 1859.
On average it is between 200oK (at the poles) and 340oK at the equator, getting to a maximum of 700oK with the Sun at the zenith.
Yes, the maximum value of acceleration due to gravity (g) is at the equator because the centrifugal force due to the Earth's rotation reduces the effective gravitational force. This results in a maximum g value at the equator compared to other latitudes.
Gravitational potential is maximum at poles.
The average temperature at the "surface" of Saturn is about minus 150 degrees Celsius. In fact that doesn't vary much from poles to equator. So, there not much of a maximum and minimum.
If a region receives more than 10 inches (250 mm) of precipitation on average per year it is not considered a desert.
The belt of maximum solar energy input to Earth is the Equator. This is because the Sun's rays hit the Earth more directly at the Equator, resulting in more intense solar radiation compared to other latitudes.
Earth rotating speed and the tilted angle of rotation do contribute to different in magnitude of the tides and seasonal pattern of tide. Because earth rotate, more of the water would centrifuge and bulge up around the equator and tide would rise more at the equator by average. The tilted axis, cause the center of the tide change seasonally, on northern hemisphere the summer tide maximum - minimum will be shifted above the equator and during winter the maximum - minimum will be below the equator.
tropical region
A desert is defined as a region that receives less than 10 inches (250 mm) of rainfall per year on average.A desert is defined as a region that receives less than 10 inches (250 mm) of rainfall per year on average.
In December, the southern regions of India such as Tamil Nadu and Kerala receive the maximum solar energy due to their proximity to the equator and lesser cloud cover during this time of the year. These regions typically have higher solar irradiance levels compared to other parts of India during December.