it uses its force to make the planets orbit the sun.
All solar orbits (of planets, comets, asteroids, etc.) are the work of gravity. Without gravity, each of these objects would sail off in a straight line, and there would be no solar system. Actually, when you think about it, gravity is what holds the sun together. So without it, there would be no sun, and without a sun, there certainly couldn't be a solar system. And also oh by the way, gravity is what holds each planet and asteroid together.
It doesn't gravity is a myth made up by Issac Newton to become famous, we are actually held on the earth by tiny magnet in our feet.
Yes, stars do exert the majority of the physical force (gravity) which dictates the gross structure of a solar system; gravity being consequential to mass - which is an intrinsic property of matter, in this case, the matter in the star. To a lesser extent, planets, gas, dust, and other objects contribute to gravitational forces at work in a solar system. The general definition of a solar system is the region in which the central star's gravitational force is dominant.
The work done by gravity on the two-block system is equal to the force of gravity multiplied by the distance the blocks move in the direction of gravity.
Mercury is the smallest planet in our solar system excluding Pluto.
Isaac Newton formulated his law of universal gravitation in 1687, which explained the force of gravity as a universal force of attraction between objects with mass. Newton's law demonstrated how gravity acts to bind the celestial bodies in our solar system together, providing a foundational understanding of planetary motion.
In our solar system, at least, the planet with the greatest mass does happen to be the one with the most known moons. But I think the cause and effect work the other way. It's not the moons that give the planet strong gravity. It's the strong gravity of the planet that captures a bunch of moons.
Yes they do work at night they are mention to keep heat in.
yes cause you need the sun in order for the solar system to work
The two forces that work together to keep the planets in orbit around the sun are gravity and inertia.
Gravity is the force that pulls objects towards each other, such as the sun and planets in our solar system. Inertia is the tendency of objects to resist changes in their motion. Gravity keeps planets in orbit around the sun by balancing the planets' inertia with the force of gravity pulling them towards the sun.
The forces that work on a system can include gravity, friction, tension, and normal force. These forces can affect the motion and equilibrium of the system.