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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.
Which planet has the longest synodic period and why?
The planet Neptune has the longest synodic period among all planets in our solar system. This is because Neptune's orbit is both farther from the Sun and slower than the orbits of the closer planets, leading to a longer time for Earth to catch up and align with Neptune in the night sky.
Is there a link between the mass of a planet and the distance from its star?
Yes, there is a relationship between the mass of a planet and its distance from its star. Heavier planets tend to form farther away from their star, while lighter planets form closer. This is due to the way planetary material condenses and accumulates in different parts of a developing solar system.
Kepler's third law of planetary motion states that planets that are closer to the sun in their orbits?
Actually, Kepler's third law of planetary motion states that the square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit. This means that the farther a planet is from the sun, the longer it takes to complete one orbit.
How does the year of a planet closer to the sh compare with one that is farther away why?
A planet closer to the Sun, like Mercury, has a shorter orbital period, meaning it completes a year in less time than a planet farther away, such as Neptune. This difference is due to gravitational forces; the closer a planet is to the Sun, the stronger the gravitational pull, leading to faster orbital speeds. Consequently, planets further from the Sun take longer to complete their orbits due to weaker gravitational attraction and larger distances to cover. Thus, the year length varies significantly based on a planet's distance from the Sun.
Why a planet farther from the sun has a longer period of revolution than a planet closer to the sun?
A planet farther from the sun has a longer period of revolution because it has a greater distance to travel in its orbit around the sun, which takes more time. This is in accordance with Kepler's second law of planetary motion, which states that planets sweep out equal areas in equal times, meaning that planets move more slowly in their orbits when they are farther from the sun.
Why does it take longer for the planets farther from the sun to revolve around the sun?
Planets farther from the sun have larger orbits, which means they have to travel a greater distance to complete one revolution around the sun. This larger distance results in a longer orbital period compared to planets closer to the sun. It follows Kepler's third law of planetary motion, which states that the square of a planet's orbital period is proportional to the cube of its average distance from the sun.
What is the relationship between the period of revolution and distance from the sun?
The period of revolution of a planet (time taken to complete one orbit around the sun) is directly proportional to its average distance from the sun. This relationship is described by Kepler's third law of planetary motion. Planets that are farther from the sun take longer to complete an orbit compared to planets that are closer to the sun.
How is the period of revolution of a planets related to its distance from the sun?
The farther it is from the sun the longer its period of revolution (its "year").
Does the distance of the planet from the sun affects its period of revolution?
Yes, the distance of a planet from the sun affects its period of revolution. According to Kepler's third law of planetary motion, planets that are closer to the sun have shorter revolution periods compared to planets that are farther away.
Why do planets have different periods of revolution?
The planets are not all the same distance from the Sun, which determines how far they have to travel, and how fast they are moving. Planets farther from the Sun have much longer orbits and are not moving as quickly. So their period of revolution (year) is longer.
Why does it take the outer planets so long to orbit the Sun?
The outer planets take longer to orbit the Sun, because they are farther away from the Sun. It make its gravitational pull weaker to the farther planets. That means that the outer planets take longer to orbit the Sun.
Why is 0.2 greater than 0.02?
yes because .2 closer to the period.
The closer a planet is to the sun?
The closer a planet is to the sun, the shorter its orbital period will be, meaning it takes less time to complete one orbit around the sun. Additionally, planets closer to the sun will experience higher temperatures and receive more sunlight compared to those farther away.
What happens to a planets time of orbit around the sun as it gets farther from the sun?
As a planet moves farther from the Sun, its orbital period increases, meaning it takes longer to complete one orbit. This relationship is described by Kepler's Third Law of Planetary Motion, which states that the square of a planet's orbital period is proportional to the cube of its average distance from the Sun. Consequently, planets that are more distant from the Sun, like Neptune, have significantly longer orbital periods compared to those closer, like Mercury.
Why does mercury have the shortest period?
Because it is closer to the sun so has a shorter orbit path than the other planets
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.
