field
They both follow an inverse square law. For gravity, F =m1m2/d2 For charge, F = q1q2/d2
If the motion is on a straight line and the impulse reverses the direction, the impulse will follow the same direction as the final motion.
A closed circuit
Similarities: inverse square law for strength of force both r central forces both are conservative forces both follow principle of superposition Differences gravity attracts electric force electric force can change direction electrostatic force depends on interviening medium
Electric field points from high potential to low potential. Positive particles had tendency to follow electric field. If you are moving the particle against this tendency you are doing work, and this work give more potential energy to the particle.
Outside the dubious field of magnetic therapists, the terms 'positive' and 'negative' are not applied to magnetic polarities. Furthermore, we do not describe magnetic polarity as a 'charge'. However, magnetic poles and electric charges follow the same rule -i.e. like poles repel while unlike poles attract.
It is a series electrical circuit.
An electric current flows from negative to positive.
Not all current flows in the same direction because electric energy does not follow the circular flow of electricity which results to direct and alternate current.
An Electric PathA complete path for an electric current to follow is called a closed circuit. Ampere is the SI unit for measuring an electric current.
They both follow an inverse square law. For gravity, F =m1m2/d2 For charge, F = q1q2/d2
An electric current follows the path of least resistance.
It depends upon the condition.But basically, to be a vector, the physical quantities needs to follow vector algebra.but current dos not follow it so it is scalar quantity.
Scalar quantities have only magnitude. Examples: time, mass, distance, volume, work, power, electric charge, electric current, pressure, moment of inertia In adding scalar quantities we follow algebraic addition. For example if 5 C and -3 C charges have to added then the total will not be 8 but it will be +5-3. So it will become +2 C If -40 C is added with +30 C then the total will be -10 C But vector quantities are having direction apart from magnitude. So both magnitude and direction. Examples: Area, displacement, velocity, acceleration, force, momentum, torque, even angle is considered to be vector. If angle is measured right from X axis in anti clockwise then it will taken as positive and it will be along +z direction ie perependicular to the plane XY While adding vector quantities we follow vector addition, so parallelogram law is followed. IF the same angle is measure right from X direction in clockwise then it will be negative and acts along negative Z direction.
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I am not sure what you mean by collecting gravity. It might be useful to consider an electric field in comparison: You can collect charges, but you cannot collect the field itself. A field will follow the charges around however. In the same way you can collect massive objects (or rather objects with energy), but you cannot collect the gravitational field they 'emit' itself.