Answer :
To find the force on q3, we need to calculate the forces exerted by q1 and q2 on q3 and then add them vectorially using the superposition principle.
The force on q3 can be found by considering the superposition principle. We need to calculate the forces exerted by q1 and q2 on q3 and then add them vectorially. Let's denote the force exerted by q1 on q3 as F13 and the force exerted by q2 on q3 as F23. Using the given information, we have:
F13:
Magnitude: 4.00 m
Direction: Along the line connecting q1 and q3
F23:
Magnitude: 3.00 m
Direction: At an angle of 37.0° with the line connecting q2 and q3
To find the total force exerted on q3, we need to add the two forces vectorially. We can use the parallelogram law or the head-to-tail method. Let's use the head-to-tail method to visualize the addition of these forces. We draw vectors representing F13 and F23 from a common starting point, and then draw the resultant vector that represents the total force on q3. The magnitude and direction of this resultant vector will give us the force on q3.
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