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based on fundamental laws of motion and gravity, which of the following best explains why kepler's second law (planets move faster in the parts of their orbit that are closer to the sun and slower when they are farther from the sun) is true? based on fundamental laws of motion and gravity, which of the following best explains why kepler's second law (planets move faster in the parts of their orbit that are closer to the sun and slower when they are farther from the sun) is true? the strength of gravity is inversely proportional to the square of the distance between two objects. the speed of a planet at any point in its orbit depends on its temperature, which varies with distance from the sun. the gravitational influence of other planets determines the speed of any particular planet's orbit. a planet's angular momentum must be conserved as it moves around its orbit.

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bharathparasad577

The strength of gravity is inversely proportional to the square of the distance between two objects.

Kepler's Second Law characterizes the the rate of a planet alongside its elliptical path. Kepler's Second Law says says that a line jogging from the solar to the planet sweeps out same regions of the ellipse in same times. This manner that the planet hastens because it tactics the solar and slows down because it departs from it.

Newton's regulation states: The gravitational appeal pressure among  factor loads is immediately proportional to the made from their loads and inversely proportional to the rectangular in their separation distance. The pressure is usually appealing and acts alongside the road becoming a member of them.

For the planets, as they cross across the Sun, their loads do not extrade however their distances from the Sun do. As they get in the direction of the Sun (distance receives smaller) they orbit faster (better velocity). The product of those  portions stays unchanged, therefore angular momentum is conserved.

Learn more about Kepler's Law here https://brainly.com/question/25900771

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