Respuesta :
Answer:
The following situations apply: A, B, D.
Explanation:
The following situations apply: A, B, D.
1.) The electric force on the electron depends on A because E= F/q and thus, F=kqq_o/r^2 Ta. As you can see, the electric force depends on r^2, which is the distance between the positive charge and the negative charge, squared.
2.) As for B, the electric force on the electron depends on its charge as you can see from equation above.
3.) As for C, mass doesn't appear anyway in the equation for Force, thus, the mass doesn't matter.
4.) For D, yes, see equation for Force.
5.) For E, no
6.) For F, r in the equation for the force refers to the distance between both charges, not the radius of either charge. Thus, F doesn't matter.
7.) For G, no.
Answer:
option (a), (b) and (d)
Explanation:
The force between the two charge particle is given by
[tex]F = \frac{KQq}{r^{2}}[/tex]
Here, q is the charge of electron, = e
So, the force is
[tex]F = \frac{KQe}{r^{2}}[/tex]
option (a), force depends on the distance between the positive charge and the electron.
option (b), force depends on the charge of electron.
option (c) force does not depend on the mass of electron.
option (d) force depends on the charge of positive charge.
option (e) force does not depend on the mass of positive charge.
option (f) force does not depend on the radius of positive charge.
option (g) force does not depend on the radius of electron.
OS, option (a), (b) and (d) are correct.
