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Gravity is a force that depends on the mass of an object. More mass means more gravity. The force of gravity between two objects depends on the mass of one (M1), the mass of the other (M2) and the distance between them. The greater the masses involved the more the force of gravity between them. The less the distance between two masses, the greater the force of gravity between them.
The principles of gravity describe how objects with mass are attracted to each other. Gravity is a force that pulls objects towards each other based on their masses and the distance between them. The strength of gravity decreases with distance, following the inverse square law.
The Principles of Gravity are :
1. Matter creates a gravitational acceleration field, g=GM/r^2= v^2/r.
2. This acceleration field creates a force on any other matter in the gravitational acceleration field, F= mg.
3. Matter creates around it an acceleration field inducing a velocity of V with speed v=sqrt(GM/r).
4. The gravitational energy produced on matter m in a gravitational field is the sum of a potential energy or real energy Er = -mGM/r and Kinetic or Vector energy mcV. This combination is a quaternion energy E= - mGM/r + mcV.
Newton's and Einstein's Theory of Gravity does not include the vector energy associated with Gravity. This failure has led to the creation of "dark energy" and other anomalies in Cosmology.
Einstein's 1.7" space curvature deflection is a Newtonian Gravity deflection (1.68"). Tan X= y/R = gt^2/2R = gR/2c^2 where t=R/c and R is the separation from the sun 150Gm and c is the speed of light and g is 9.8 the gravitational acceleration of earth and y is the earth's gravitational deflection of light. Tan X = 9.8x150G/180GM= 8.166u.
Conservation of Gravitational Energy indicates that the Gravitational Universe is in Equilibrium with the gravitational centripetal force mv^2/r is balanced by the gravitational centrifugal force mcDel.V = mcvcos(z)/r. The redshift is v/c=cos(z), the indicator of equilibrium.
Hubble believed the redshift indicated an "hitherto unknown principle of nature", and Hubble did not favor the expansion theory of redshift. It seems that Newton's view of Gravity is sound but for neglecting the vector energy explicitly. Implicitly, Newton just added the mdV/dt! Maxwell simlarly added his displacement current without justification. Both of these terms find justification in A Quaternion Theory of Physics.
This vector force is added without Principle #3 above. Newton's Laws can be derived from :
0=Force=[d/dr, Del][-mu/r, mcV] = m[v^2/r - cDel.V, dcV/dr - Del u/r ]
Newton's added mdV/dt = mdcV/dr above where r=ct and dr=cdt.
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What is the scientific principles of a pendulum?
A pendulum's motion is governed by the principles of gravity and inertia. When a pendulum is displaced from its resting position, gravity pulls it back towards equilibrium, causing it to oscillate. The length of the pendulum and the angle of displacement influence its period of oscillation.
Does gravity act the same on all objects?
Yes, gravity acts on all objects in the same way, regardless of their mass or composition. All objects fall to Earth at the same rate due to gravity, following the principles of Newton's law of universal gravitation.
Who did research on the motion of objects and the force of gravity?
Sir Isaac Newton is known for his work on the motion of objects and the force of gravity. He developed the laws of motion and the law of universal gravitation, which are fundamental principles in the field of physics.
How do you change the direction of gravity?
Gravity is a fundamental force of nature that is always directed toward the center of mass of an object. In everyday circumstances, we cannot change the direction of gravity. However, certain physics principles, like centrifugal force or magnetic fields, can simulate the feeling of altered gravity.
How elevator related to physics?
Elevators are related to physics through concepts such as Newton's laws of motion, gravity, and mechanical engineering principles. The operation of elevators involves the application of forces, acceleration, and friction, which are all fundamental physics principles. Understanding these principles helps in designing safe and efficient elevator systems.
What are the scientific principles involved in?
The four principles of flight are Thrust, Lift, Drag and Gravity
What are the two principles of gravitational pull?
mass and gravity
Who was the English mathematician and physicist who devised the principles of gravity and motionWho was the English mathematician and physicist who devised the principles of gravity and motion?
Sir Isaac Newton was. Sir Isaac Newton was.
What are scientific principles for catapults?
a couple of them are kinetic & potential energy and gravity!
What is the scientific principles of a pendulum?
A pendulum's motion is governed by the principles of gravity and inertia. When a pendulum is displaced from its resting position, gravity pulls it back towards equilibrium, causing it to oscillate. The length of the pendulum and the angle of displacement influence its period of oscillation.
Does gravity act the same on all objects?
Yes, gravity acts on all objects in the same way, regardless of their mass or composition. All objects fall to Earth at the same rate due to gravity, following the principles of Newton's law of universal gravitation.
Who did research on the motion of objects and the force of gravity?
Sir Isaac Newton is known for his work on the motion of objects and the force of gravity. He developed the laws of motion and the law of universal gravitation, which are fundamental principles in the field of physics.
How do you change the direction of gravity?
Gravity is a fundamental force of nature that is always directed toward the center of mass of an object. In everyday circumstances, we cannot change the direction of gravity. However, certain physics principles, like centrifugal force or magnetic fields, can simulate the feeling of altered gravity.
What airodynamic principle?
Aerodynamic principles cover altitude, center of gravity, aircraft balance, impact of attitude change as well as stalls and spins.
How elevator related to physics?
Elevators are related to physics through concepts such as Newton's laws of motion, gravity, and mechanical engineering principles. The operation of elevators involves the application of forces, acceleration, and friction, which are all fundamental physics principles. Understanding these principles helps in designing safe and efficient elevator systems.
What ingenious children's device that conquers gravity?
A toy that demonstrates the principles of magnetism and balance, such as a magnetic levitation kit, can be a fun and educational way for children to explore and understand gravity. These kits typically include magnets and a magnetic base that allow an object to float and appear to defy gravity.
Do all scientist agree on how gravity works?
Yes, the basic principles of gravity are well understood by scientists, as described by Newton's law of universal gravitation and Einstein's theory of general relativity. While there may be ongoing research and debates about specific aspects of gravity at extreme scales, the general consensus among scientists is that these theories effectively explain the force of gravity.
