The answer simply depends on the environment that the electron is in. If the electron is in orbit around the nucleus of an atom then there will be a strong electromagnetic force acting on the electron towards the nucleus.
I don't see any diagram to the left.
no. a force acting perpendicularly on a body cannot cancel a force which is acting horizontally on the same body.!!!!
The Forces acting on the pen are first the downward force called gravitational force and the upward force is the tension force.
Its either a proton or an electron. but im almost positive its an electron because protons are located inside of the nucleus. They cant get any closer.
The force acting upon it is energy.
This is valid only for the attraction between a proton and an electron.
In principle, any force acting on an object is unbalanced, UNLESS there is a second force in the opposite direction, acting on the same object.
The metric unit for force - any force - is the newton.
There is no force acting and therefore no work done.
There is no force to stop it either. It has energy.
The force acting on flywheel is called centrifugal force.
I don't see any diagram to the left.
no. a force acting perpendicularly on a body cannot cancel a force which is acting horizontally on the same body.!!!!
Any force will do. The only condition is that the TOTAL (or NET) force acting on an object is non-zero.
Yes. The definition of "free fall" implies that gravity from Earth - or perhaps from different objects - is acting on the body.
there is nothing called as an electric force...an electron revolves around a nucleus due to the electrostatic fore of attracion between the electron and the proton....any object , to undergo a circlar motion has to experience a centripetal force, which in the case of the atom is provided by the electrostatic force. Actually there is an electric force of attraction between the electron(s) and proton(S)
Gravity is a force and any force acting on a body changes its velocity in the direction of the force.