The elliptical shape of each planetary orbit is the result of the adding together the forces of gravity, which tries to move each planet toward the sun, and inertia, which is trying to keep each planet moving in a straight line.
Gravitational force is what holds all the planets in their orbits around the sun. This force is determined by the mass of the objects and the distance between them. The gravitational pull of the sun keeps the planets in their respective orbits.
No, gravity holds planets in orbit around the sun because the sun's gravity pulls on them. This gravitational force between the sun and planets keeps them in their respective orbits. The force between planets themselves is much smaller and mainly affects their interactions with each other rather than their orbits around the sun.
orbit. The force of gravity from the sun holds the planets in their orbits, while the planets' velocity and inertia keep them moving in a curved path around the sun. This balance between gravity and inertia allows the planets to move in stable orbits.
The gravitational force between the planet and the sun is what holds the planet in orbit around the sun. This force keeps the planet moving in a curved path around the sun, in balance with the planet's inertia.
the force of attraction that holds atoms together is a chemical bond
Gravity from the Sun holds the planets in their orbits.
Gravitational force is what holds all the planets in their orbits around the sun. This force is determined by the mass of the objects and the distance between them. The gravitational pull of the sun keeps the planets in their respective orbits.
The gravitational attraction from our Sun holds the planets in orbit.
Planets are held in their orbits by the gravitational force exerted by the sun. This force is what allows planets to stay in motion around the sun without flying off into space or falling into the sun.
It is gravity that holds the planets in their orbits around the sun. Gravity is what gives "shape" to the solar system, to galaxies, and is the large-scale organizer of the universe as a whole.
No, gravity holds planets in orbit around the sun because the sun's gravity pulls on them. This gravitational force between the sun and planets keeps them in their respective orbits. The force between planets themselves is much smaller and mainly affects their interactions with each other rather than their orbits around the sun.
The sun's gravity holds the planets in their orbits. It also holds other space objects in their orbits, such as asteroids.
Planets are held in orbit around the Sun by the force of gravity. Gravity is the attractive force between two objects with mass, and the Sun's immense mass keeps the planets in their orbits.
orbit. The force of gravity from the sun holds the planets in their orbits, while the planets' velocity and inertia keep them moving in a curved path around the sun. This balance between gravity and inertia allows the planets to move in stable orbits.
Gravity :)
Gravity is the force that holds planets and moons in orbit around larger celestial bodies, such as stars or planets. The gravitational pull between these objects creates a balance between the centrifugal force of their motion and the gravitational force pulling them towards each other, resulting in stable orbits.
The force that holds electrons around a nucleus is the electrostatic force of attraction between the positively charged nucleus and the negatively charged electrons. This force is known as the electromagnetic force and is responsible for keeping the electrons in orbit around the nucleus.