The low-angle sunlight has to travel through more atmosphere, which results in loss.
The same amount of light is spread over a larger area because of the angle at which it hits
The Milky Way appears brighter from the Southern Hemisphere primarily because the center of the galaxy is located in the direction of the constellation Sagittarius, which is more visible from southern latitudes. Additionally, southern regions have less light pollution and clearer skies in many areas, enhancing visibility. The distribution of stars and gas clouds in the Milky Way also contributes to a more pronounced view of its dense core from the south.
For the most part there is less developed land in the Southern Hemisphere than in the Northern Hemisphere. That means that at night when you can see the stars there is less light pollution, and generally, I believe. less air pollution. Less air pollution means less tiny particles in the air. Particles tend to interfere with the passage of light, so you can't see stars that give off less light. At the same time "Light Pollution" makes the sky seem lighter providing poorer contrast and making weaker stars more difficult to see. In other words, stars are not brighter in the Southern Hemisphere, they're just easier to see.
The latitudes that receive the least amount of UV light are typically found near the poles, specifically above 60 degrees north and below 60 degrees south. This is due to the angle of the sun's rays, which are less direct at these higher latitudes, resulting in lower UV radiation levels. Additionally, during the winter months, these regions experience significantly reduced daylight, further decreasing UV exposure.
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.
Faint stars were not included in ancient constellations and regions of the southern sky were not visible to the ancient astronomers of northern latitudes. (source: Michael A. Seed's Foundations of Astronomy)
Northern and southern latitudes are colder because the angle of the sun's rays is more shallow, meaning the sunlight is spread over a larger area and has less heating power. Additionally, these latitudes receive less direct sunlight due to the Earth's tilt on its axis.
no. tundra is a tree less region. the plants are shrubs grasses, etc.
D climates, which are characterized by mild winters, are not found in the southern hemisphere because there is less landmass in the southern hemisphere to create the necessary conditions for these climates to exist. The lack of significant landmass at high latitudes in the southern hemisphere prevents the formation of D climates.
Yes, polar latitudes receive less solar radiation than equatorial latitudes due to the Earth's axial tilt. This results in colder temperatures and less direct sunlight reaching the poles, creating a solar radiation deficit in these regions.
For the most part there is less developed land in the Southern Hemisphere than in the Northern Hemisphere. That means that at night when you can see the stars there is less light pollution, and generally, I believe. less air pollution. Less air pollution means less tiny particles in the air. Particles tend to interfere with the passage of light, so you can't see stars that give off less light. At the same time "Light Pollution" makes the sky seem lighter providing poorer contrast and making weaker stars more difficult to see. In other words, stars are not brighter in the Southern Hemisphere, they're just easier to see.
Higher latitudes receive less solar radiation because sunlight hits the Earth at a more oblique angle, spreading the same amount of energy over a larger surface area. This results in lower intensity of solar radiation reaching these regions compared to lower latitudes where sunlight strikes the Earth more directly.
All of them do that have latitudes greater than -23.5
The southern cross is visible near the horizon from tropical latitudes of the northern hemisphere, for a few hours every night, during the spring months at a latitude of 25º N or less, with unobstructed view to the South, at around 10 pm, at the end of April.
Higher latitudes receive less solar radiation due to the angle at which the sunlight strikes the Earth's surface. At higher latitudes, the sun's rays hit the Earth at a lower angle, spreading the same amount of energy over a larger area. This results in lower intensity of sunlight and less solar radiation reaching those areas.
With the exception of Alaska, it is closer to the North Pole and further from the equator than any of the other states.^^ also, canda's latitudes mean that it receives less direct sunlight then we would^^^^ basically its further away from the equator.Canada is north of the U.S. where it does not get the sunshine and heat that more southern areas get.
High latitudes have a colder climate compared to low latitudes. This is due to the angle of sunlight, which is more spread out at high latitudes leading to less direct heat energy reaching the Earth's surface. Additionally, low latitudes receive more direct sunlight year-round, helping to maintain warmer temperatures.
Mainly because regions at higher latitudes receive less sunlight.