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The inverse square law is a logical extension of the geometry of space. As gravity propagates from a mass, it can be thought of as creating an expanding sphere of force. If we imagine gravity to be produced by an emission of particles called gravitons (much as light is caused by an emission of photons) then at any given distance, the photons are dispersed throughout the spherical surface of the expanding sphere, and as that surface increases proportionately to the square of the radius, so do the gravitons become less dense, according to the square of the distance. Even if we use a different model of what gravity does, not requiring gravitons, the math works out the same, because you have the same expanding sphere.
What else can I help you with?
If the law of gravity instead of become inverse square law than?
The details depend on what specific rule you are thinking about. The inverse-square law for gravity and electricity basically follows from the fact that we live in a three-dimensional space. In a four-dimensional space, for example, the law of gravity (as well as electrostatics) would be inverse-cube. With such a law, there could be no stable orbits, for planets, etc. (any small perturbation in a circular orbit would make the planet fall into the Sun, or make it go away without coming back).
Gravity decreases according to which law?
Gravity decreases according to the inverse square law, which states that the force of gravity between two objects decreases proportional to the square of the distance between them. This means that as the distance between two objects increases, the force of gravity between them decreases rapidly.
How does gravity change if you double the distance from the center of mass?
Gravity decreases by a factor of four when you double the distance from the center of mass. This is because gravity follows an inverse square law, meaning it weakens proportionally to the square of the distance.
How is coulombs law similar to newtons law of gravity?
Both Coulomb's law and Newton's law of gravity describe the force between two objects based on their charges (in Coulomb's law) or masses (in Newton's law of gravity). Both laws follow an inverse square relationship, where the force decreases as the distance between the objects increases. Additionally, both laws are fundamental principles in physics that describe the fundamental forces of electromagnetism and gravity, respectively.
Does gravity increase or decrease with greater distance?
Gravity decreases with greater distance. The force of gravity weakens as you move farther away from the source of the gravitational pull, following an inverse square law.
If the law of gravity instead of become inverse square law than?
The details depend on what specific rule you are thinking about. The inverse-square law for gravity and electricity basically follows from the fact that we live in a three-dimensional space. In a four-dimensional space, for example, the law of gravity (as well as electrostatics) would be inverse-cube. With such a law, there could be no stable orbits, for planets, etc. (any small perturbation in a circular orbit would make the planet fall into the Sun, or make it go away without coming back).
Gravity decreases according to which law?
Gravity decreases according to the inverse square law, which states that the force of gravity between two objects decreases proportional to the square of the distance between them. This means that as the distance between two objects increases, the force of gravity between them decreases rapidly.
How does gravity change if you double the distance from the center of mass?
Gravity decreases by a factor of four when you double the distance from the center of mass. This is because gravity follows an inverse square law, meaning it weakens proportionally to the square of the distance.
How is coulombs law similar to newtons law of gravity?
Both Coulomb's law and Newton's law of gravity describe the force between two objects based on their charges (in Coulomb's law) or masses (in Newton's law of gravity). Both laws follow an inverse square relationship, where the force decreases as the distance between the objects increases. Additionally, both laws are fundamental principles in physics that describe the fundamental forces of electromagnetism and gravity, respectively.
Does gravity increase or decrease with greater distance?
Gravity decreases with greater distance. The force of gravity weakens as you move farther away from the source of the gravitational pull, following an inverse square law.
Why do you think the elements are lighter in the exosphere?
Do you mean elements or molecules? Gravity is acting more weakly on them (inverse square law).
Can you ever lose gravity?
No, gravity can never be lost. It can lose it's attraction as you move farther away. For more information look-up the Inverse Square Law by Newton.
Will Hooke's Law still hold without gravity?
Yes, Hooke's Law will still hold without gravity, as it relates to the relationship between the force applied to a spring and the resulting extension or compression of the spring, rather than being dependent on gravity. Gravity is not a factor in Hooke's Law, so it can still be applicable in environments without gravity.
How does the force of gravitationbetween two objects change when the distance between them is reduced to half?
In that case, the force would increase by a factor of 4. Gravity obeys an inverse-square law.In that case, the force would increase by a factor of 4. Gravity obeys an inverse-square law.In that case, the force would increase by a factor of 4. Gravity obeys an inverse-square law.In that case, the force would increase by a factor of 4. Gravity obeys an inverse-square law.
How did newtons work on orbits add to work Kepler had done?
Newton derived Keplars findings from Newton's Theory of Gravity. Thus, newton 'explained' the basis for Keplars findings and extended them.
What happens to the acceleration due to gravity as you move farther away from the center of the earth?
The acceleration due to gravity decreases as you move farther away from the center of the Earth. This is because gravity weakens with distance according to the inverse-square law.
What is the differences n similarities of gravity force and electricity force?
Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.
