Question

A -3.00 nc point charge is at the origin, and a second -5.50 nc point charge is on the x-axis at x = 0.800 m. find the electric field (magnitude and direction) at point on the x-axis at x = 0.200 m.

Answer 1

The electric field produced by a single-point charge is given by

`E(r)=k(q)/(r^2)`

where

k is the Coulomb's constant

q is the charge

r is the distance from the charge

To find the electric field at x=0.200 m, we need to find the electric field produced by each charge at that point, and then find their resultant.

1) The first charge is
`q=-3.00 nC=-3.00 \cdot 10^(-9) C`, and it is located at x=0, so its distance from the point x=0.200 m is

`r=0.200 m-0=0.2 m`

Therefore, the electric field is

`E_1=(8.99 \cdot 10^9 Nm^2C^(-2))((3.0 \cdot 10^(-9) C))/((0.2 m)^2)=675 N/C`

And since the charge is negative, the direction of the field is toward the charge, so toward negative x direction.

2) The second charge is
`q=-5.50 nC=-5.5 \cdot 10^(-9)C` and it is located at x=0.800 m, so its distance from the point is

`r=0.800 m-0.200 m=0.6 m`

Therefore, the electric field is

`E_2 = (8.99 \cdot 10^9 Nm^2C^(-2))((5.5 \cdot 10^(-9) C))/((0.6 m)^2)=137.5 N`

And since the charge is negative, the direction of the field is toward the charge, so toward positive x-direction.

3) The total electric field at x=0.200 m will be given by the difference between the two fields (because they are in opposite directions). Taking the x-positive direction as positive direction, we have

`E=E_2 -E_1 =137.5 N/C/C-675 N/C=-537.5 N/C`

and the sign tells us that the field is directed toward negative x-direction.