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In 1687, Sir Isaac newton explained that gravitational forces held the solar system together in his seminal work, "Philosophiæ Naturalis Principia Mathematica." He formulated the law of universal gravitation, which described how every mass attracts every other mass, providing a comprehensive explanation for the orbits of planets and celestial bodies. This groundbreaking insight laid the foundation for classical mechanics and significantly advanced our understanding of the universe.
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What is a result of gravitational forces in the Solar System A.?
the orbit of planets around the Sun in the Solar systemthe orbit of moons around their planets in the Solar system
How do astronomers think our solar system was formed?
A bunch of hydrogen atoms clustered together. The H+ smashed together releasing a ton of heat, creating the sun.
How can a moon produce a gap in a planetary ring system?
A moon like a planet is a compacted mass and has gravity. If it is in a ring then most likely over time it will sweep out a void in the ring by collecting all the remaining material that orbits with it.
What is the order of gravitational forces of the planets in your solar system?
The order of gravitational forces of the planets in the solar system is generally from highest to lowest: Jupiter, Saturn, Neptune, Uranus, Earth, Venus, Mars, Mercury. This order is based on the mass of the planets and their distance from the sun.
What is responsible for the movement of planets within the solar system?
The movement of planets within the solar system is primarily due to gravitational forces exerted by the sun. The sun's gravity keeps the planets in orbit around it, while their own momentum and inertia cause them to move in their respective paths. This dynamic balance of forces results in the planets' continuous motion.
Who explained that gravitational forces hold the solar system together?
Isaac Newton. Having formulated his theory of universal gravitation and the math that describes how it works, he was able to show that it leads to Kepler's laws, which describe the motions of everything in the solar system.
Why do we stay together and don't spin away or get sucked into the sun?
we stay together by gravitational forces and gravital orbitational circles. our solar system was either started by a solar nebula or meteoroids colliding. our solar system was started4,600 years old.
What keeps the entire solar system together?
the gravitational force of the sun
What is a result of gravitational forces in the Solar System?
One result of gravitational forces in the Solar System is the motion of planets in their orbits around the Sun. These forces also contribute to the stability of the Solar System by holding celestial bodies in place and preventing them from drifting off into space.
If dust and gas has a very low gravitational force due to their low mass how can planets and stars and other universal bodies be formed from them?
A small quantity of dust and gas will have a small gravitational force. The idea is that, to form a solar system (or a group of solar systems), a large amount has to come together; and in that case, it would have a significant mass, and significant forces would be acting.A small quantity of dust and gas will have a small gravitational force. The idea is that, to form a solar system (or a group of solar systems), a large amount has to come together; and in that case, it would have a significant mass, and significant forces would be acting.A small quantity of dust and gas will have a small gravitational force. The idea is that, to form a solar system (or a group of solar systems), a large amount has to come together; and in that case, it would have a significant mass, and significant forces would be acting.A small quantity of dust and gas will have a small gravitational force. The idea is that, to form a solar system (or a group of solar systems), a large amount has to come together; and in that case, it would have a significant mass, and significant forces would be acting.
What makes the planets and moons in the solar system move?
Gravitational forces combined with the motion of the planet or moon originating from the formation of the solar system.
What is a result of gravitational forces in the Solar System A.?
the orbit of planets around the Sun in the Solar systemthe orbit of moons around their planets in the Solar system
How do astronomers think our solar system was formed?
A bunch of hydrogen atoms clustered together. The H+ smashed together releasing a ton of heat, creating the sun.
How can a moon produce a gap in a planetary ring system?
A moon like a planet is a compacted mass and has gravity. If it is in a ring then most likely over time it will sweep out a void in the ring by collecting all the remaining material that orbits with it.
What astronomer explained that planets orbit the most massive object in the solar system?
The astronomer who explained that planets orbit the most massive object in the solar system is Johannes Kepler. He formulated the laws of planetary motion, which describe how planets move in elliptical orbits around the Sun, the largest and most massive object in our solar system. His work laid the foundation for understanding gravitational forces and planetary dynamics. Isaac Newton later provided the theoretical framework for why this occurs, with his law of universal gravitation.
What is the order of gravitational forces of the planets in your solar system?
The order of gravitational forces of the planets in the solar system is generally from highest to lowest: Jupiter, Saturn, Neptune, Uranus, Earth, Venus, Mars, Mercury. This order is based on the mass of the planets and their distance from the sun.
What is the relationship between mass distribution and the effective gravity experienced by objects within a system?
The relationship between mass distribution and effective gravity is that the distribution of mass within a system affects how gravity is experienced by objects within that system. Objects closer to more massive regions will experience stronger gravitational forces, while objects farther away will experience weaker gravitational forces. This means that the distribution of mass can impact the overall gravitational pull experienced by objects within a system.
