It accelerates towards the star. This is due to the increased force of gravity which is inversely proportional to the square of distance between the masses; as they get closer, gravity pulls harder. An increased force means a greater acceleration due to gravity.
Yes. Kepler proved that orbiting objects such as comets or planets speed up as they approach the Sun, and slow down as they move away. Isaac newton used Kepler's observations and calculations as fundamental when he developed his theory of gravity.
No. Comets accelerate under the force of gravity as they fall toward the Sun, and slow down (also under the force of gravity) as they move away from the Sun on their orbits.
as it gets closer to the sun, the gravitational forces that act on it increase and it speeds up. at the other end of its orbit, its far away, so it slows
Yes. Halley's Comet is a comet that orbits our sun, and the definition of "Part of the solar system" is 'Any object that orbits our sun.'
The Orbit of Comet Halley is an elongate ellipse, yes, but it does not orbit earth - it orbits the sun.
comet
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True
Yes. Halley's Comet is a comet that orbits our sun, and the definition of "Part of the solar system" is 'Any object that orbits our sun.'
The Orbit of Comet Halley is an elongate ellipse, yes, but it does not orbit earth - it orbits the sun.
comet
Halley's comet appears because it is a comet that orbits the Sun. It as a highly elliptical (oval) orbit which makes it seem to fly out of the solar system and back.
No. It's a comet.
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big
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halleys comet