No. Earth's gravitational field is due to the large mass within it; the electromagnetic field is due to the movement of the metals in its core. There are also the standard differences between a gravitational and an EM field.
A moving electric charge produces both an electric field and a magnetic field. The magnetic field surrounds the moving charge and is perpendicular to both the direction of motion and the electric field. This combined electromagnetic field is described by Maxwell's equations.
No, an electromagnet is a device that produces a magnetic field when an electric current flows through it. Electromagnetic waves, on the other hand, are a form of energy that includes radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays, produced by the oscillation of electric and magnetic fields.
precession
Yes, the idea is that the units don't depend on local conditions such as the gravitational field.
Electromagnetic waves are made up of particles called Photons.Electromagnetic waves carries by the small particles named "Photon".Electromagnetic waves are made of photon charges, E=hf=hc/r = zQ2c/r, where Q is the photon charge= 4/3 E-18 Coulombs = 8 1/3 Electrons=(13U,1d) Quark.an electric field and a magnetic field that are orthogonal to each other and oscillating at the same frequency.
Not really. You could have both an electric field and a magnetic field occupying the same space at the same time but they wouldn't 'make the definition' of electromagnetic until they began to fluxuate in phase at a harmonized frequency.
No. Earths in much more powerful.
The electrical field force acts between two charges, in the same way that the gravitational field force acts between two masses.
The gravitational acceleration of an object near Earth is the same because it depends only on the mass of the Earth and the distance from the center of the Earth. This means that all objects experience the same gravitational acceleration, regardless of their mass or composition.
No. The sum of the gravitational field and the electric field is a useless concept.
No, the gravitational field strength on each planet depends on its mass and radius. For example, Jupiter has a stronger gravitational field than Earth due to its larger mass, while Mars has a weaker gravitational field because it is smaller and less massive than Earth.
No. Gravitational force is the pull an object experience from gravity. Gravitational energy is the energy an object has from its position in a gravitational field. An object moving up in a gravitational field gains gravitational energy.
The relationship between static acceleration and an object's position in a gravitational field is that the static acceleration of an object in a gravitational field is constant and does not change with the object's position. This means that the object will experience the same acceleration due to gravity regardless of where it is located within the gravitational field.
Weight = mass x gravityThe mass of the same object, taken to the Moon, will basically not change. The Moon's gravitational field, however, is less - about 1/6 that of the Earth.
Bricks that are same color
Commonly referred to as the object's "weight".Note: The object also exerts the same identical gravitational force on the earth.Earth
-- If the velocity is horizontal, then gravitational potential energy doesn't change. -- If velocity is vertical and upward, gravitational potential energy increases at a rate proportional to the speed. -- If velocity is vertical and downward, gravitational potential energy decreases at a rate proportional to speed.