Best answer: Which will experience a greater force in an electric field a proton an electron?

Which will experience a greater force in an electric field a proton an electron or they will experience the same force?

Terms in this set (21)

Which feels the larger electric force? Since F = qE and the proton and electron have the same charge in magnitude, they both experience the same force. However, the forces point in opposite directions because the proton and electron are oppositely charged.

Do protons or electrons experience more force?

The matter is positively charged if it contains more protons than electrons, and it is negatively charged if it contains more electrons than protons. In both instances, charged particles will experience a force when in the presence of other charged matter.

Which charge the proton or electron is subject to a greater force?

Both forces are inversely proportional to the square of the distance between the objects, this is known as the inverse-square law. … The electrostatic force between an electron and a proton is many orders of magnitude greater than the gravitational force between them.

What force will a proton experience in a uniform electric field?

A proton is released in an uniform electric field and it experiences a force of 3.2×10−14 N 3.2 × 10 − 14 N toward the south.

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Is proton proton attractive or repulsive?

The protons in a nucleus have two forces to contend with, the electromagnetic force which is repulsive as you suggest, and also the strong nucleon-nucleon force which is not only attractive but also much stronger than the other.

What particle has no charge?

Neutron, neutral subatomic particle that is a constituent of every atomic nucleus except ordinary hydrogen. It has no electric charge and a rest mass equal to 1.67493 × 1027 kg—marginally greater than that of the proton but nearly 1,839 times greater than that of the electron.

What is the minimum charge on a particle?

The minimum charge that a particle can have is the 1.6×1019 coulomb. A given particle cannot have a charge lower than this.

What do two uncharged objects do?

When two neutral objects come into contact–especially in a dry environment–electrons can be knocked loose from one object and picked up by the other. The object that gains electrons becomes negatively charged, while the object that loses electrons becomes positively charged.

Why can’t the position of an electron be determined with certainty?

The Heisenberg uncertainty principle states that the exact position and momentum of an electron cannot be simultaneously determined. This is because electrons simply don’t have a definite position, and direction of motion, at the same time!