Force on Current in a Wire: A,B,C?

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The force on a current-carrying wire in an external magnetic field is directly proportional to the current, magnetic field strength, and the length of the wire. Participants in the discussion agree that the correct answer to the homework question is D, indicating that all three factors are relevant. The conversation highlights the importance of understanding the relationship between these variables in the context of physics equations. Additionally, the integration process in physics confirms that wire length is indeed a significant factor. Overall, the consensus emphasizes that all three elements contribute to the force experienced by the wire.
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Homework Statement


The force exerted on a current carrying wire located in an external magnetic field is directly proportional to which of the following?
a. current in the wire
b. magnetic field strength
c. length of the wire
d. answers a, b and c are all correct
e. none of the above are correct


The Attempt at a Solution


pretty sure its D. just wanted to get a second opinion. thanks.
 
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Yo man, that sounds like an IB paper 1 question.

You doing IB Physics too?
 
wakejosh, the force exerted on a current carrying wire located in an external magnetic field is given by the following expression:

62ns7sz.jpg


What does that tell you? :)
 
well, it tells me that A and B are correct, but I'm just not totally sure if C is correct, but since I don't have any options to say that A and B are correct, then I am thinking D has to be the correct answer, and that wire length is also important.
 
Good use of logic skills there!

But the integral of dl is length... so the equation does tell you about length.
 
wakejosh, the thing is when you integrate between "A" and "B", what you get is the length (of course, if both the current intensity and magnetic field don't depend on the length, you can simply extract them from the antiderivative and when you integrate, you simply get the length).
 

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