Answer:
56N
Explanation:
The magnitude of the total force on the third particle is equal to the resultant force on it due to the first and second particles. From Coulomb's law of electrostatic attraction, the following relationship holds;
where k is the electrostatic constant whose value is 9 x and
r is the distance between the two charges and .
According to the problem given, let the first charge be , the second charge be and the third charge at the origin be . Therefore;
Also, let the force due to the first charge be and the force due to the second charge be .
Hence, by equation (1); we can write the following;
where and
is attractive since and are unlike charges while is repulsive since and are like charges.
Substituting all values into equations (2) and (3) we obtain the following;
Both and point towards the left (see attached diagram), hence the resultant force on becomes
F = 36 +20
F = 56N