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Electrical and Gravitational forces are similar in being the derivative of scalar potential energies resulting in inverse square laws.
The main difference in the equations is that electrical forces can be attractive or repulsive, while gravitational forces are always attractive.
How can there be electrical charge inside matter even if the matter shows no electrical forces
Particles are neither strong nor weak. The forces between particles may be strong or weak. In this case, the strength (or magnitude) of the force depends on the specific situation. In the case of electrical forces, the force between particles gets stronger when the particles are close together. On the other hand, the "strong force" between bound quarks is independent of the distance.
Yes.
Electrical and Gravitational forces are similar in being the derivative of scalar potential energies resulting in inverse square laws.
The main difference in the equations is that electrical forces can be attractive or repulsive, while gravitational forces are always attractive.
Cyclones do not tend to be electrical. The storm activity that accompanies a cyclone centres more around strong winds and rain, rather than lightning and electrical 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."Negative" and "positive" are terms used with electrical forces, not with magnetic forces.
Forces in chemistry are electrical forces.
How can there be electrical charge inside matter even if the matter shows no electrical forces
yes. electrical force (or more properly the electromagnetic force) is one of the four fundamental forces.
Electrical forces.
The attractive forces are electrical forces between opposing charges.
Like poles repel; opposite poles attract. They are similar to electric charges, for they can both attract and repel without touching. ... Electric charges produce electrical forces and regions called magnetic poles produce magnetic forces.
In both, opposites attract.
Electrical power.