because of how far or close the state is to the equator the closer to the equator the warmer weather you get the further the colder
Around the equator there is no noticeable difference to the seasons, compared to what is experienced by parts of Earth that are much further from the equator. At the poles, can you detect a difference?
Yes, changing the angle of tilt of Earth's axis would result in different seasonal variations. A greater tilt would lead to more extreme seasons, with hotter summers and colder winters, while a smaller tilt would result in milder and less distinct seasons.
If Earth's axis were to point away from Polaris and towards Vega, the North Star would change, leading to a shift in the orientation of the seasons. This change in axial alignment would affect the angle at which sunlight hits different parts of the Earth, potentially altering the duration and intensity of seasons in each hemisphere. Additionally, it would impact the patterns of daylight and darkness across the planet.
The Earth has changed significantly over billions of years due to geological processes such as plate tectonics, climate fluctuations, and the evolution of life forms. These changes have shaped the planet's surface, atmosphere, and ecosystems, leading to the diverse environments we see today.
If too much energy from the sun enters Earth's atmosphere, it can lead to a rise in global temperatures, causing climate change. This can result in more extreme weather patterns, melting ice caps, and disruptions to ecosystems.
It will always have the biggest influence on seasonal weather and how much light is allowed to penetrate to the surface. However, the tilt of the Earth is the main cause for seasons.
Ocean temperatures change on a seasonal basis, but there are other factors at play which complicate when, and how, and by how much it changes.
They don't change it very much
Ocean temperatures change on a seasonal basis, but there are other factors at play which complicate when, and how, and by how much it changes.
While the Earth's orbit is an ellipse rather and a perfect circle, the eccentricity is fairly low, so not much of the seasonal weather changes are due to it. Most of the seasonal changes that we see each year are due to the fact that the Earth is tilted by 23.5 degrees from our orbit. So we have summer where the Earth is tilted toward the sun, and winter where the Earth is tilted away from it.
It will always have the biggest influence on seasonal weather and how much light is allowed to penetrate to the surface. However, the tilt of the Earth is the main cause for seasons.
No. Neptune is much colder than even the coldest places on Earth.
Seasons on Neptune last around 40-years. Neptune's axial tilt is 28.5-degrees, not much different from Earth's. The most recognizable signs of seasonal change on Neptune are the brightness of clouds in the Neptune's southern hemisphere.
The Earth's surface is about 70% water (oceans and seas), but as much as 12% of the ocean surface is covered by polar ice on a seasonal basis.
Because few places on Earth remain the same over time.... rivers change their courses, buildings get erected, roads get closed and new ones open, places change their names, all sorts of things happen to make a map go out of date, and a user needs to be able to assess how much confidence they can have in a map.
Locations near the equator typically do not experience significant seasonal temperature changes. These areas typically have a more consistent climate throughout the year due to their proximity to the equator, which receives consistent sunlight and heat distribution.
Very seasonal or low