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The "period of a planet" refers to the time it takes for that planet to complete one full orbit around its star. This is typically measured in Earth years or days, depending on the planet's distance from the star and its orbital speed. For example, Earth's orbital period is one year, while Mercury's is about 88 days. The period is influenced by gravitational forces and the characteristics of the orbit, such as its shape and size.
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Planet A has a greater mean distance from the Sun than planet B On the basis of this fact which further comparison can be correctly made between the two planets?
Based on the fact that Planet A has a greater mean distance from the Sun than Planet B, you can correctly infer that Planet A likely has a longer orbital period than Planet B. This is because planets that are farther from the Sun generally take longer to complete one orbit.
Is the period of revolution dependent on the size of the planet?
No. The period of revolution depends on the size of the orbit of the planet.
The period of revolution of a planet is most closely related to its what?
The period of revolution of a planet is most closely related to its distance from the sun. The further a planet is from the sun, the longer it takes to complete one revolution.
What do you call the period of time it takes a planet to revolve one time?
The time it takes a planet or satellite to revolve once is called its day.
What relationship exists between a planet's distance from the sun and its period of revolution?
The relationship that exists between a planet's distance from the Sun and its period of revolution is that the closer the planet is from the Sun, the less amount of time it takes for the planet to complete its period of revolution.
Planet A has a greater mean distance from the Sun than planet B On the basis of this fact which further comparison can be correctly made between the two planets?
Based on the fact that Planet A has a greater mean distance from the Sun than Planet B, you can correctly infer that Planet A likely has a longer orbital period than Planet B. This is because planets that are farther from the Sun generally take longer to complete one orbit.
What planet has the longest revolution?
If you mean revolution on it axis (spin/day length) rather than orbital period, then the answer is the planet Mercury, where time between sunrises is roughly 176 Earth days.
Is the period of revolution dependent on the size of the planet?
No. The period of revolution depends on the size of the orbit of the planet.
What is the common term used for a planet's orbital period?
A planet's orbital period is also known as its year.
How does planet distance from the sun affect the period of revolution?
How does a planet's distance from the sun affect its period of revolution?
The period of revolution of a planet is most closely related to its what?
The period of revolution of a planet is most closely related to its distance from the sun. The further a planet is from the sun, the longer it takes to complete one revolution.
Which one of these planet completes its rotation in 59-60 Earth days venus mercury mars Jupiter?
Rotation means the planet spinning about it axis. (Orbit the the path of the planet round the Sun). The planet Mercury has a rotational period of 58.646 Earth days. The planet Venus has a (retrograde) rotational period of 243.0185 Earth days. The planet Mars has a rotational period of 1.025957 Earth days. The planet Jupiter has a rotational period of 9.925 hours. Obviously Earth has a rotational period of 1 Earth day.
What is Mercury's rotation period and what does rotation mean?
mercury's rotation period is 58.647 earth days. a rotation is when the planet turns around on its axis, like what the earth does once every day.
What do you call the period of time it takes a planet to revolve one time?
The time it takes a planet or satellite to revolve once is called its day.
Is one year it takes a planet to orbit the sun?
A year (or orbital period) is defined as the period it takes a planet to orbit the Sun.
What planet has a rotation period that is almost the same with its orbital period?
Mercury
What is the differences between a planet's period of rotation and its period of revolution?
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