Finding Magnetic Field at Point P

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
1 reply · 6K views
0338jw
Messages
42
Reaction score
0

Homework Statement


Two long thin parallel wires 13 cm apart carry 25A currents in the same direction. Determine the magnetic fild at point P 12 cm from one wire and 5 cm from the other.

Homework Equations


B=mu/2pi * I/r

The Attempt at a Solution



I have already solved this problem, and I have the answers. The problem is I wasn't too specific when doing it and now can't figure out for the life of me how I got the angle I used!:eek: when I use ratios like (.12/.13) instead of Cos theta it works out opposite, for the other current carrying wire. How do I know what is theta? I remember vaguely doing something like 90-theta then doing cos/sin of that to find the xy components. Helping me with this would mean a LOT to me guys. I checked the book for similar examples, none. Only ones where forces are all x or all y with no components.EDIT: I have the angles now, but I'm still unsure which to use for which current carrying wire. I have 67.4 and 22.6. Do I do 90 - the angle I get fr each current carrying wire since the B field is perpendicular?
 
Last edited:
Physics news on Phys.org
Hi 0338jw,

0338jw said:

Homework Statement


Two long thin parallel wires 13 cm apart carry 25A currents in the same direction. Determine the magnetic fild at point P 12 cm from one wire and 5 cm from the other.


Homework Equations


B=mu/2pi * I/r


The Attempt at a Solution



I have already solved this problem, and I have the answers. The problem is I wasn't too specific when doing it and now can't figure out for the life of me how I got the angle I used!:eek: when I use ratios like (.12/.13) instead of Cos theta it works out opposite, for the other current carrying wire. How do I know what is theta? I remember vaguely doing something like 90-theta then doing cos/sin of that to find the xy components. Helping me with this would mean a LOT to me guys. I checked the book for similar examples, none. Only ones where forces are all x or all y with no components.


EDIT: I have the angles now, but I'm still unsure which to use for which current carrying wire. I have 67.4 and 22.6. Do I do 90 - the angle I get fr each current carrying wire since the B field is perpendicular?

Are you referring to finding the components of each field? That would depend on the angle that the line to point P makes with the coordinate axes. Are the point and the two wires all in a line, or are they arranged somehow else? Can you upload a picture, or provide more description?