Change in the mass of a body
You can detect the magnetic field by its pull on another magnet, including a compass needle.
It is similar to gravitational force in some aspects, dissimilar in others. It's best that you read in detail about how both work, to understand the similarities and differences. The Wikipedia might be a good start.Both act at a distance. Gravitation acts on any mass; both electrical and magnetic forces only act on certain types of materials. Gravitation is always attractive. Electrical and magnetic forces can be attractive or repulsive, depending on the exact situation. Unlike electrical charges, you can't separate magnetic "charges" - you can only have dipoles (a combined north and south pole), so a magnet will attract another magnet in one orientation, and repel it in the opposite orientation.
"Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces."Negative" and "positive" are terms used with electrical forces, not with magnetic forces.
gravitational
No, the gravitational field keeps us in orbit around the sun. The earths magnetic field provides us with some protection from charged particles from the sun.
The gravitational force is only attractive. Electric and magnetic forces can be both attractive and repulsive.
Every force. mechanical, electrical, magnetic, gravitational, etc.
Because it is. Gravitational potential energy is energy stored in the gravitational field, electrical potential energy is energy stored in the electric field, magnetic potential energy is stored in the magnetic field, etc.
You can detect the magnetic field by its pull on another magnet, including a compass needle.
blah
It is both as gravity makes electric power with magnets hope it helps.
Potential energy can be descirbed in many forms: gravitational potential, electrical potential and so forth. For gravitational potential energy, the formula is E=mgh, where E is the gravitational potential energy, m is the mass of the object , g is the strength of the prevailent gravitational field and h is the height above that field. In this instance, the factors determing the potential energy are threefold; the mass, the gravitational field strength and the height. For electrical potential, the factors vary depending on what electrical field, componant or senario you are dealing with. In essence, an object has electrical potential energy when it has become charged (such as an Ion), or it is feeling the effects of conflicting magnetic feilds and motion (as in electro-magnetic induction).
for apex its: a quantum field, a gravitational field
gravitational force.
Gravity,Magnetism,Strong nuclear force,Weak nuclear force
the answer is: magnetic...magnetic and electrical
What are the differences between electrical and magnetic circuit.