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The changing seasons on Earth are primarily determined by the planet's axial tilt and its orbit around the sun. When a particular hemisphere is tilted towards the sun, it experiences summer, while when tilted away, it experiences winter. The position of Earth in its orbit also affects the length and intensity of the seasons.
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What is determined by the earth's revolution and angle of tilt?
The Earth's revolution around the Sun determines the length of the year and the changing seasons. The angle of tilt (23.5 degrees) causes different parts of the Earth to receive varying amounts of sunlight, leading to the seasonal changes.
Is NOT a direct result of Earth's rotation?
The change in seasons is not a direct result of Earth's rotation. Seasons are caused by Earth's axial tilt and its orbit around the Sun. Earth's rotation affects the length of a day and the creation of day and night, but not the change in seasons.
What is the reltionship between day and night and seasons?
The relationship between day and night and seasons is that the length of daylight and darkness determines the changing of seasons. In areas where days are longer than nights, it is typically warmer, indicating summer. Conversely, when nights are longer than days, it is generally colder, signifying winter. The tilt of Earth's axis also plays a significant role in the changing seasons.
Are seasons caused by the precession of Earth's axis?
No, seasons are primarily caused by the tilt of the Earth's axis as it orbits the sun. The precession of Earth's axis does affect the timing of the seasons over long periods of time, but it is not the primary cause of the seasons.
Responsible for the different seasons on earth?
The different seasons on Earth are primarily caused by the tilt of the Earth's axis as it orbits the sun. This tilt causes different parts of the Earth to receive varying amounts of sunlight throughout the year, leading to the changing seasons. Additionally, the Earth's elliptical orbit around the sun also plays a role in the intensity and duration of the seasons.
Do we have seasons because earth is closer to the sun?
We do not have seasons because the earth is closer to the sun, we have seasons because the earth's axis rotation determines the amount of sunlight we get each day.
How earth's orbit around the sun determines the seasons of earth?
they are not determined they are a leeway so that is a rough estimate so we dont know the actual seasons.
What determines the length one day on earth?
the time it takes the earth to spin around on its axis
What are the two seasons on earth that do not have seasons?
the two seasons on earth that do not have seasons are spring and fall
What is determined by the earth's revolution and angle of tilt?
The Earth's revolution around the Sun determines the length of the year and the changing seasons. The angle of tilt (23.5 degrees) causes different parts of the Earth to receive varying amounts of sunlight, leading to the seasonal changes.
What does the tilt of the earth determine?
The tilt of the Earth determines the angle at which sunlight hits the surface, affecting the intensity and duration of sunlight at different latitudes. This tilt is responsible for the changing seasons as the Earth orbits the sun.
What makes the earth change seasons?
The Earth's seasons changes by the tilt of the Earth.
When Earth is closer to the Sun during the year what season is it?
When Earth is closer to the Sun, it is in winter in the Northern Hemisphere and summer in the Southern Hemisphere. The distance between Earth and the Sun (known as Earth's orbital distance) doesn't significantly affect the seasons; the tilt of Earth's axis is the primary factor that determines the seasons.
What determines a planet's seasons?
Distance from the sun during rotation.
Does Oregon have 4 seasons?
Everywhere has four seasons. In some places the seasons blend together, but technically the time of year determines he season.
What are Earth's seasons the result of?
The Earth's seasons are a result of the way the Earth is titled on an axis and its elliptical orbit around the sun. The Earth is the only planet to have seasons.
What are the results of Earth's seasons?
The Earth's seasons are a result of the way the Earth is titled on an axis and its elliptical orbit around the sun. The Earth is the only planet to have seasons.
