How Do Forces Add in a Right Angled Triangle with Identical Charges?

  • Thread starter jevillan
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In summary, the net force on point B in a right angled triangle with identical point charges at each corner, with forces acting from point A and C on point B, would be equal in magnitude but opposite in direction, resulting in a net force of 0. This is determined by adding the two force vectors acting on point B.
  • #1
jevillan
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Homework Statement


Each corner of a right angled triangle is occupied by identical point charges "A", "B", and "C" repectively."A" exerts force F on "B". An equal force F is exerted by "C" on "B" (ÐABC=90°). Determine an expression for the net force on "B"?


Homework Equations


F = (kq1q2)/(d^2)


The Attempt at a Solution


Fa = (kQaQb)/d^2
Fc = (kQcQb)/d^2

Fnet = [(kQaQb)/d^2]-[(kQcQb)/d^2]
=(kQaQb) - (kQcQb)
= kQb(Qa-Qc)

I'm not sure if I did that right...I was trying to figure out what direction the net force would be in, but if the two forces are equal in magnitude, wouldn't the net force just be zero?
 
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  • #2
Have you drawn a diagram of this problem?

What do the forces acting on B look like?
 
  • #3
Aimless said:
Have you drawn a diagram of this problem?

What do the forces acting on B look like?

http://imageshack.us/photo/my-images/232/unledn.gif/
not quite sure if that's how I'm supposed to draw the forces ... :S
 
  • #4
Close enough.

Now, consider the point B, and diagram the forces acting upon it. Remember that forces are vectors. How do vectors add?

(When making a force diagram, we typically draw the forces as "arrows" originating from the object upon which they act, pointing in the direction in which the force acts, and with a length equal to the magnitude of the force. Think of it as if the arrows were "pulling" the object in the direction of the force. These arrows represent the force vectors acting upon the object in question. In this case, it would be two arrows originating from point B. Which way do they point? What are their lengths?)
 
  • #5
Aimless said:
Close enough.

Now, consider the point B, and diagram the forces acting upon it. Remember that forces are vectors. How do vectors add?

(When making a force diagram, we typically draw the forces as "arrows" originating from the object upon which they act, pointing in the direction in which the force acts, and with a length equal to the magnitude of the force. Think of it as if the arrows were "pulling" the object in the direction of the force. These arrows represent the force vectors acting upon the object in question. In this case, it would be two arrows originating from point B. Which way do they point? What are their lengths?)

so that diagram would have two arrows coming from point B (one going down and one going to the right) and they would both be equal in length. Would the net force be the magnitude and direction of the displacement of those two vectors? (In this case, the magnitude would be 0 right?)
 
  • #6
jevillan said:
so that diagram would have two arrows coming from point B (one going down and one going to the right) and they would both be equal in length.

Correct.

jevillan said:
Would the net force be the magnitude and direction of the displacement of those two vectors? (In this case, the magnitude would be 0 right?)

The net force is the magnitude and direction of the sum of the force vectors acting on B.

How do vectors add? (Hint: How would you write each vector in terms of its components?)
 

FAQ: How Do Forces Add in a Right Angled Triangle with Identical Charges?

What is electrostatics?

Electrostatics is the branch of physics that deals with the study of electric charges at rest and the forces and fields associated with them.

What is an electric field?

An electric field is a region of space around an electric charge in which other electric charges experience a force.

How do you calculate the magnitude of an electric field?

The magnitude of an electric field is calculated by dividing the force exerted on a test charge by the magnitude of the test charge. It can also be calculated using Coulomb's law, which states that the electric field intensity is directly proportional to the magnitude of the charge and inversely proportional to the square of the distance between the charges.

What is Coulomb's law?

Coulomb's law is a fundamental law of electrostatics that describes the force of interaction between two electrically charged particles. It states that the force between two point charges is directly proportional to the product of their charges and inversely proportional to the square of the distance between them.

How does the distance between two charges affect the force between them?

The force between two charges is inversely proportional to the square of the distance between them. This means that as the distance between two charges increases, the force between them decreases. Similarly, as the distance decreases, the force increases.

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