Gravity is an attraction of masses to each other. The mass of the Sun is very great and it pulls on all the planets. If there were nothing to stop this attraction the planets would be pulled into the Sun. But, just like whirling a ball around your head with a string and the ball stays out at the end of the string the planets whirling (well, rotating) around the Sun keeps them from falling into the Sun. The pull (attraction) of the Sun is like the string. This pull is called the centripetal force. If you cut the string the ball would fly off. The rotation of the planets makes them want to fly off too. This urge to fly off is called the centrifugal force. When the centripetal force equals the centrifugal force the planet is in a stable orbit.
Gravity is what sets the planets in motion. The force that keeps them in motion is known as inertia in the law of physics.
The Sun's gravity pulls the planets in and makes them orbit it. It's just like how the Eath's gravity makes the Moon orbit the Earth, only on a larger scale.
The gravitational interaction of the Earth and Moon produces a number of effects. The most obvious of these is the orbital motion of the Moon around the Earth, but there is also a motion of the Earth around the center of mass of the Earth-Moon system, tidal effects on the Earth and Moon and professional effects on the Earth's axis of rotation.
Gravitation is not only the 'dominant' force that produces those effects, it's actually the 'only' force responsible for them.
The force of attraction between heavenly bodies is called gravity. Usually, the solar system has the planets all kept in orbit by the gravity of the sun.
The Sun's gravity causes a planet to orbit the Sun.
Mercury orbits the Sun because of the balance between the pull of the Sun's gravity and the inertia of Mercury's motion. Gravity is the force of attraction between any two objects with mass, in this case, between the Sun and Mercury. The gravitational force between the Sun and Mercury keeps Mercury in its orbit instead of falling into the Sun.
Gravity is what sets the planets in motion. The force that keeps them in motion is known as inertia in the law of physics.
Head = (Pressure * specific gravity)/2.31 Head in ft Pressure in pound per in^2
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Gravity and motion. Gravity pulls the planets in and keeps them from flying away, while the velocity of the planets keeps them from being sucked in completely.
Motion and mutual gravitational attraction.Another Perspective:Gravity is the only thing required, which is fortunate because it's the only thing there is.
The relationship between a thing or objects and its meanings is a system of meanings.
You can use Newton's laws of motion and his law of universal gravitation to predict the motion of planets in the solar system. These laws describe how objects move under the influence of gravitational forces and have been successfully used to explain the orbits of planets around the Sun. Additionally, computer simulations based on these principles can also be used to accurately predict planetary motion over time.
No. Perpetual motion is equivalent to "infinite energy", and is not the first law of thermodynamics "Mass-energy is neither created nor destroyed"? You would have to do at least the same amount of work lifting objects up against gravity as you would get out of the system from gravity.
Gravity affects the motion of an object by pulling it towards the center of the Earth. This force creates acceleration, causing objects to fall towards the ground at a rate of 9.8 m/s^2. The greater the mass of an object, the greater the gravitational force acting upon it.
A macro virus takes advantage of the relationship between the trust application and the operating system?