Force is the first derivative of energy. The gravitation energy is
W = -mGm/r + cmV = -mvh/r + cP
Gravity energy is a Quaternion energy consisting of a scalar force -mGM/r and a vector energy cmV = cP a momentum vector energy, the so-called Dark Energy.
In addition physics does not recognize the four space derivative X,properly a Quaternion derivative, X =[d/dr, DEL].
With these reflections the Force is the first derivative and a Quaternion Force.
Force F= XW = [d/dr, DEL][ -vh/r ,cP]
F = [vh/r2 -cDEL.P, cdP/dr -DEL vh/r + cDELxP]
F = [vp/r - cp/r cos(P), -cp/r 1P + vp/r 1R + cp/r sin(P) 1RxP]
F = cp/r[v/c -cos(P), -1P + v/c 1R + sin(P) 1RXP]
cp/r = cp/ct=p/t = mv/t = ma.
The vector energy provides the centrifugal force that keeps the mass m from falling into the center. The centrifugal force is teh Divergence of the vector energy, cDEL.P = -cp/r cos(P).
Yes, gravitation refers to the force of attraction that exists between all objects with mass. Gravity specifically refers to the force of attraction that Earth exerts on objects near its surface. Gravity is one of the manifestations of gravitation.
Gravity is a fundamental force of nature, not a scientific law. Scientific laws describe how nature behaves under certain conditions, while gravity is a force that causes objects to be attracted to each other. The law that describes gravity is Newton's law of universal gravitation.
Gravity is the force of attraction that exists between all objects with mass. It is responsible for holding planets in orbit around the sun and objects on Earth's surface. Gravity is described by Newton's law of universal gravitation and is a fundamental force in the universe.
Gravity is a fundamental force of nature that causes two objects to be attracted to each other based on their mass and distance. The second law of gravity does not exist; instead, there are various laws of physics that describe how gravity operates, such as Newton's law of universal gravitation and Einstein's theory of general relativity.
The common term used to describe the force of gravity on an object is its weight. Weight is the measure of the force of gravity acting on an object due to its mass.
Yes, gravitation refers to the force of attraction that exists between all objects with mass. Gravity specifically refers to the force of attraction that Earth exerts on objects near its surface. Gravity is one of the manifestations of gravitation.
Gravity is a fundamental force of nature, not a scientific law. Scientific laws describe how nature behaves under certain conditions, while gravity is a force that causes objects to be attracted to each other. The law that describes gravity is Newton's law of universal gravitation.
Gravitation or Gravity
Gravity is the force of attraction that exists between all objects with mass. It is responsible for holding planets in orbit around the sun and objects on Earth's surface. Gravity is described by Newton's law of universal gravitation and is a fundamental force in the universe.
Do you mean "gravitation"? Gravitation is related to the force of gravity, which is one of the four fundamental forces in the Universe.
Is described by Newton's Law of Universal Gravitation.
Gravitation is mearly the force of 2 matter objects pulling each other. Gravity exists everywhere.
Newton was the first to propose that there was a force of attraction between matter. He called this force gravity somewhat to counter Aristotle's explanation that things rose because of "levity". Newton said things fell because of gravity.
The force of gravity exerted by an object is directly proportional to its mass, not its size.is
Gravitation is the only force that acts universally.
The phenomenon of universal gravitation produces forces that always attract and never repel.
Gravity is a fundamental force of nature that causes two objects to be attracted to each other based on their mass and distance. The second law of gravity does not exist; instead, there are various laws of physics that describe how gravity operates, such as Newton's law of universal gravitation and Einstein's theory of general relativity.