Table of Contents
How would the force change if the distance between two charges are tripled?
Explanation: The electrostatic force is directly related to the product of the charges and inversely related to the square of the separation distance. Tripling one of the charges would serve to triple the force. Tripling the distance would serve to reduce the force by a factor of nine.
What would happen to the electric field if the charge was doubled and the distance of the test charge was increased by 4?
As the distance from Object A is doubled, the electric field strength created by object A increases by a factor of 4. As the charge of Object A is doubled, the electric field strength created by object A increases by a factor of 2.
What will happen if the distance between two charged objects is doubled?
If charges doubled force will be doubled on the other hand if distance between charges increased (double) in the same time then it will remain. . increase and decrease cancel out each others effects Originally Answered: What will effect electrical force if the distance between two charged objects is doubled and halved?
What is an electric dipole moment?
An electric “dipole” is two equal and opposite point charges separated by a distance d. It is an electrically neutral system . The “dipole moment” is defined to be the charge times the separation ( dipole moment = Qd ).
What is the formula for the force between two charges?
And r is distance between the two charges. There is square of distance that is r^2 So force is inversly proportional to distance square.so if distance double then force decrease 4 times previous. F=k×q1×q2/ (2r)^2 since distance doubled in first time. By comparing eq. 7 and 8 is found that F1=4F.
What is the force acting on the same charges if halved?
From Coloumb’s law of electrostatic force we know, F = kq1q2 r2 (where, k is a constant, q1 and q2 are two charges separated by distance r) So,if the distance between the charges is halved, with no changes of the charges,new distance becomes r 2 So,if now force acting between the same charges is F