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Short answer, no. Long answer, yes and no. Short answer: The spinning of the Earth on its axis causes day and night. Long answer: The existence of Earths axis causes the seasons we experience (not that long after all). Hope that helps, John

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15y ago
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13y ago

If you stay in one place while the earth rotates, then you can see the sun during

half of each rotation, and you can't see it during the other half. The time during

which you see the sun, you call "day", while the time when you're facing the other

way, you call "night".

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11y ago

Think of the sun as a bright light in the dark and the earth as a ball some distance away. The light illuminates only one side of the ball. This is the day side. The other side of the ball is unlit, and dark - this is the night side. Now set the ball slowly spinning. A fly sitting on the the day side will move round to the night side, then back to the day side. Where the fly is moving from light to dark corresponds to dusk, and dark to light corresponds to dawn.

If the fly is sitting near the axis of the rotation of the ball, and this axis is pointing slightly towards the light, then the fly will stay in the light - just as you would at the north pole in summer. Move the ball round to the other side of the light and the axis points away from the light, our polar fly is experiencing the long night of a north pole winter.

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12y ago

The earth's rotation is the cause of day and night. The earth rotating about its axis causes the part of the earth facing the sun (receiving sunlight -- the day) to constantly change. If the earth did not rotate at all, the sun would rise and set only once per year from the earth's orbit around the sun.

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14y ago

Earth rotating [purely spinning in circles] and the moon revovling around Earth. So, yes? One rotation of the earth is one day; it is not necessarily the revolution of the earth around the sun-- that amounts to one year.

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14y ago

As the earth spins one side is facing toward the sun and the other side is facing away from the sun. The earth spins and the side of the earth that faced the sun now faces away. It takes 24 hours for the earth to spin around once.

JO3SH (Age 1234567890)

When the Earth was very young, its faster rotation caused it to have a much larger equatorial circumference than it has at the present time. It may have been spinning fast enough to have a "Saturn type ring" around it.

It is well known that the rotation of planet Earth is gradually slowing. For four and one half billion years, its entire lifetime, its rate of rotation has been gradually slowing. As the Earth loses its kinetic energy due to all forms of friction acting on it; tides, galactic space dust, solar wind, space weather, geomagnetic storms, etc., like any flywheel, it will slow down. (The space surrounding the planet is far from empty).

While we know the Earth's rotation is slowing that is not the main reason why the extra "Leap Second" was added by our official time keepers this year. The reason for adding a leap second is that the planet does not rotate exactly once every 24 hours (86,400 seconds). The rotation actually takes 86,400.002 seconds so that each day this little difference builds up between the atomic clock and the earth's rotation.

When the difference builds up enough (.9 seconds), the time keepers must add another second (leap second) to keep the stars location, relative to the planet's rotation, in exact sync with the superaccurate atomic clocks.

The Earth's rotation is slowing but at a much slower rate than 1 leap second every so many years. The length of time it takes the Earth, at the present time, to rotate once is 86,400.002 seconds compared to 86,400 seconds back in 1820. The rotation has slowed roughly only by 2 milliseconds since 1820. That seems like an insignificant amount of time BUT over the course of the planet's entire lifetime, it has had very profound effects on the geophysics of the planet.

It has caused mountains to rise, earthquakes, etc. to occur as we will see. This article is about, factoring in the tremendous geophysical activity that was caused, by the Earth's slowing rotation, in the interior of the planet, its crust, oceans and atmosphere over its entire lifetime.

The Sub-bureau for Rapid Service and Predictions of Earth Orientation Parameters of the International Earth Rotation Service (IERS), located at the US Naval Observatory, monitors the Earth's rotation. Part of its mission involves the determination of a time scale based on the current rate of the rotation of the Earth.

They estimate that the Earth's rotation is slowing at about 1.4 milliseconds per solar day per century which roughly agrees with the rate of rotation of the Earth has actually slowed down since 1820.

Tracing these tiny milliseconds back for 4.5 billion years adds up to a very significant amount of time for a solar day. I have determined that the day/night rotation was 63,000 seconds shorter than the present 86,400 seconds it is today. This would put the Earth's rotation at about 6.5 hours per day/night cycle, when it was created, 4.5 billion years ago. (This is a much faster rate of rotation than the Cassini-Huygens mission (2003 to 2004) determined Saturn's 10.5 hours rotation period to be.)

This rate of rotation would have exerted tremendous stress throughout the newly formed planet. If the rate of rotation has been slowing fairly constantly, over the ages, we can see that the earth was rotating very fast originally, for it to slow down to the present 24 hour rate it is today. What ever it was - its angular momentum was much faster and therefore its "centrifugal force" was tremendously strong when the planet was very young. This caused the young, fast spinning, Earth to have a much more pronounced oblate shape, possibly even having a "Saturn type ring" orbiting around it.

In the past, when the Earth was younger and spinning faster, the stronger angular momentum caused the Earth to assume a more pronounced oblate spheroid shape much greater than the twenty-seven miles it is today. A 15% increase in the equatorial circumference of the faster rotating young planet, relative to its present rotation, could produce approximately 3600 more miles of surface around the young planet's equatorial zone.

This was a lot of surface to crunch into the ever changing shape of the planet as its rotation gradually slowed over the ages. Since the ratio of strength of gravity and angular momentum (centrifugal force)is always changing, the shape of the planet never reaches equalibrium - it is always changing.

(The fast spinning star, Vega, makes a full rotation about its axis once every 12.5 hours, (only about 1/2 the Earth's early rate) which causes it to assume a 23% ellipical bulge at its equator, so a 15% greater bulge for the faster spinning Earth is not out of the question.)

The constant struggle between gravitational force and the weakening angular momentum caused by the slowing of the Earth's rotation, has had a profound effect on the Earth's geophysical activity throughout the ages. This constant struggle between these two gigantic forces has caused a continual adjusting of the Earth's shape as the ratio of the strengths of angular momentum and gravity have changed.

Gravity is a centripetal force, it exerts its tremendous force inward, toward the center of gravity, always trying to form the Earth into a perfect sphere while the angular momentum is an outward tangential inertia (centrifugal force) that causes the oblate shape of the Earth.

The angular momentum of the spinning planet tends to adjust the bulge to fit the changing conditions. A stronger angular momentum due to a faster rotation would increase the Earth's bulge while a weaker angular momentum due to a slowing rotation would allow gravity to form the planet into a more perfect sphere. Evidence indicates the rotation is constantly slowing however so that the angular momentum is growing weaker.

The decrease in the size of the equitorial bulge may also had some effect on the Earth's angular momentum but the bulge does not decrease fast enough to actually increase the rotation of the Earth by any significant amount. Plus the fact all the leap seconds have been positive, indicating that the Earth is constantly slowing.

This weakening allows gravity to pull the planet's shape into an ever more perfect sphere. This change in shape has set up tremendous stresses within the Earth and in its crust as it struggles to fit on the slowly changing mantle.

If the Earth's rotation was not slowing, there would be none of this stress, and its shape would have remained constant throughout the ages. Its rotation is gradually slowing however, (even taking the conservation of momentum into consideration), causing its angular momentum to become progressively weaker. Gravity remains just as strong as ever and continues to exert the same amount of inward pressure.

This on going struggle between gravity's centripetal force and angular momentum's centrifugal force causes tremendous dynamic stress within the Earth as it adjusts its shape. It is gradually changing its shape from that of an oblate spheroid with a bulging equator and flatter pole regions to that of a more perfect sphere to conform with the changing conditions. Throughout the ages, since its birth, the Earth has been going through this constant gradual change.

The surface of the Earth's mantle, especially in the tropical and subtropical regions of the Earth is becoming smaller while the pole regions have uplifted and become rounder. The fact that the Earth is getting rounder, even today, has been confirmed by the satellite "Lageos" which is being monitored by scientists at the University of Texas Center for Space Research and at the Jet Propulsion Laboratory.

This slow continual change in the Earth's interior has set up tremendous dynamic pressures and stress within the Earth's crust as it endeavors to conform to the ever changing mantle upon which it floats. It is the imbalance between the angular momentum and gravity that cause the dynamic (subduction) movements of the continental crustal plates as the crusts shifts and crunches to fit into the ever diminishing area of the mantle.

It is this relentless, extremely slow, tremendously powerful, change that cause earthquakes to occur, volcanoes to erupt and the Earth's vast mountain ranges to rise. As the equatorial oblate shape of the Earth shrinks, the immense resulting pressure within the mantle causes it to gradually ooze upward creating the Atlantic and Pacific ridges. ("The Ring of Fire")

The Earth's slowing rotation also had a profound effect on its climate over the ages. In the past, the faster rotation caused the Earth's ocean waters to concentrate more in the tropical and subtropical regions. This left the oceans in the pole regions relativly shallow compared to the equatorial region. Even today the Arctic Ocean's average depth is more shallow than the oceans in the equatorial regions.

Also the continent of Antarctica's plateau has greater average height above sea level than the other continents, even though burdened with heavy glaciers. This is due to the lower sea level in the pole regions rather than a higher continent. The concentration of ocean water over a much larger area, in the warmer regions of the Earth, must have had a profound effect on the Earth's climate in past geological times.

The faster rotation also had an enormous effect on the Earth's dynamic atmosphere creating more energetic global winds and perhaps, greater evaporation from the warm equatorial seas. The blanket of atmosphere may also have been thicker in the equatorial regions. The final result of all these effects created a vastly different climate than our present climate.

These effects where greatest in the Pre-Cambrian age of geological time. They have become more subdued, but still evident, in the later geological ages as our planet's rotation continues to gradually slow. (It would be interesting, if all this information were fed into a computer to see what the planet was like under these changing conditions, throughout its lifetime.)

After 3.5 billion years the planet's rotation had slowed to 20.11 hours per day/night cycle and at a 100,000,000 years ago its rotation period had slowed to 23.6 hours, not that much different than the present rate. Within these years a tremendous amount of geophysical activity had taken place as the earth's equatorial region had slowly disappeared, becoming ever more rounder until today the 3600 mile bulge had shrunk to a measely 27 miles.

The planet's former magnificent ring had long ago settled back on the surface of Earth and all that remained was the moon still orbiting the Earth. Within this vast geologic time many mountain ranges had risen only to be eroded away and replaced by new ranges as the crust strived to conform with the everchanging mantle. The age of the dinosaurs had come and gone and with only a 27 mile bulge left there will probably be no significant new mountain ranges created in the future. The Earth has reached its "maturity" and is settling into a period of much less geophysical activity compared to the past.

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13y ago

firstly anyone knows that I'm 8 and I'm answering this but anyway

as the earth rotates around the sun it also spins it it's own place so when a country let's say London UK turns away from the sun it gets dark and that is night but the part of the earth facing the sun is morning.

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13y ago

If you stay in one place while the earth rotates, then you can see the sun during

half of each rotation, and you can't see it during the other half, because the earth

has turned you to face away from the sun, and actually, the earth is in the way

between you and the sun.

The time during which you're facing the sun and able to see it is what you call "day",

while the time when you're facing the other way and can't see the sun, you call "night".

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14y ago

Yes.

Yes.

Yes.

Yes.

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8y ago

No.

Day and night comes from the rotation of the Earth around its own axis

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Q: Day and night is a result of the angle of tilt that the earth has on its axis?
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Related questions

What is the result of earth's rotation on its axis?

Day and night.


What is inclined at an angle of 11.5 to earth's rotation axis?

what is inclined at an angle of11.5 to earth's rotational axis?


Why does the earth have day and night?

Earth is rotating on its axis and day and night occur as a result as the Earth spin. If the Sun is shining on a part of the Earth, they are having day time. If a part of the Earth is facing away from the Sun, there are having night time.


What is the angle between the earth's magnetic axis and geographic axis?

15


What is the angle between earth's magnetic axis and geographical axis?

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What is the degree that the earth is tilted?

I think the question should be "what is the angle..." The tilt of Earth's axis is about 23.5°. This is the angle between Earth's axis and a line that is vertical to the Ecliptic (the plane in which Earth orbits the Sun).


What is angle of tilt of the Earth axis?

It is about 23.5 degrees


The axis of earth is tilted at the angle of?

23.5 degrees


What is Axis of the earth?

the axis of the Earth is the imaginary rod on which the Earth rotates on


What approximate angle of the tilt of the earth axis?

23.5 degrees from the perpendicular.


Where are the sun and the earth when it is fall?

During the autumnal equinox (which is usually on September 22), the angle between the Earth's axis and the Earth-Sun line become perpendicular to one another. That is, the axis of the Earth's rotation is not pointed towards or away from the sun, and the length of the day and night become equal.


What action causes day and night the earth orbits the sun or Earth rotates on its axis?

The earth rotates on its axis.