Physics Ninja calculated the total force on a current loop placed in the magnetic field produced by a long wire. The force on each segment is considered.
Dude! Excellent presentation of content, except your audio is sub par. Gotta have better sound. Get that mic up in your sheeit! Also, overlapping two different diagrams can be confusing. The red and blue are two separate diagrams, so when you draw red circles and say the magnetic field gets weaker the further you get away from the wire, the circles are drawn on the first blue line, making it look like they are the same distance from the wire. It took a couple seconds to realize you're ignoring the blue diagram.
When you are calculating the magnetic field on segment 1 you didn't consider the magnetic field due to current I2 on other segment (2,3&4) . Similar situation for other segment also.Is that negligible?
I have a question ? If we solve dlxB vectoral product we get opposite direction and same magnitude force for F2 and F4. And B opposite sign due to direction. So F2+F4 is not equal zero and F2+F4 same direction and same magnitude like F2+F4=2F2 ? Please answer my question.
Right hand rule: wrap your fingers around a pencil, and point your thumb in the direction of the current. The way your hand curves around the pencil is the same way the magnetic field curls around the current
Thanks for your comment - I just checked the answer and i seem to have punched in the wrong numbers into my calculator. I'm horrible with numbers! The algebra works but my final answer is incorrect...by a factor of 2! If you do it correctly you should get 2*10^(-8). Sorry about that. Here's a link www.desmos.com/calculator/zn52svzmt2
I think i just wasted your time,I was asking about the "mu naught" it was the Vacuum Permeability constant. got it now. (BTW your complex and RC circuit video was fantastic I understand 100% of it, Thank you so much.)
Hi Jani, i'm not sure i understand the question. The total force (or Net Force) is acting on the loop. There is an equal but opposite force acting on the long wire thanks to Newton's third law.
Great video! Helped me understand the material a lot better.
simple and straight forward explanation. Please keep it up. Thank you
Very helpful and good explanation.
answer should've been 2*10^-8 N
amazing explanation
Good explanation indeed.
Thank you bro, but can you show me how to do the calculus?
youre an electricity and magnetism GOD
Dude! Excellent presentation of content, except your audio is sub par. Gotta have better sound. Get that mic up in your sheeit!
Also, overlapping two different diagrams can be confusing. The red and blue are two separate diagrams, so when you draw red circles and say the magnetic field gets weaker the further you get away from the wire, the circles are drawn on the first blue line, making it look like they are the same distance from the wire. It took a couple seconds to realize you're ignoring the blue diagram.
Excellent
I found this extremely helpful thank you? But why would the magnetic field be pointing out of the page?
ua-cam.com/video/-EnRggYVGlk/v-deo.html
When you are calculating the magnetic field on segment 1 you didn't consider the magnetic field due to current I2 on other segment (2,3&4) . Similar situation for other segment also.Is that negligible?
Good question. I’m considering the force between both objects, treating the loop as one object and the wire as another object.
How did you figure that the magnetic field above the wire points out of the page?
Right hand rule
I have a question ? If we solve dlxB vectoral product we get opposite direction and same magnitude force for F2 and F4. And B opposite sign due to direction. So F2+F4 is not equal zero and F2+F4 same direction and same magnitude like F2+F4=2F2 ? Please answer my question.
B is the field produced by the long wire and therefore in the same direction.
what do you do if you arent given either of the currents
im grateful
Osm EXPLAINATION!!!
Thankyou!
very clear explanation! tnx
How do I find the mutual inductance?
You need to find the flux of the magnetic field produced by the wire through the loop. I’ll put something together soon on this.
@@PhysicsNinja ok please, it'll be of great help.
Also post the link below. Thanks.
How can i calculate F4 ??
Thanx it helped a lot
Hey! How did u find out that the magnetic field was coming out of the page?
Right hand rule: wrap your fingers around a pencil, and point your thumb in the direction of the current. The way your hand curves around the pencil is the same way the magnetic field curls around the current
U r the best 😉😉😉😉😉
How do you get u_0 to be 4pi*10^-7 which is 1.25*10^-6. Did u_0 = I*A right? So 0.04*0.06 * 5*10^-3= 1.2*10^-5
Thanks for your comment - I just checked the answer and i seem to have punched in the wrong numbers into my calculator. I'm horrible with numbers! The algebra works but my final answer is incorrect...by a factor of 2! If you do it correctly you should get 2*10^(-8). Sorry about that. Here's a link www.desmos.com/calculator/zn52svzmt2
I think i just wasted your time,I was asking about the "mu naught" it was the Vacuum Permeability constant. got it now. (BTW your complex and RC circuit video was fantastic I understand 100% of it, Thank you so much.)
Sir i have a question.....if two metal wires carrying the same current then where B is zero plz explain in detail with reasoning
no
So this is an arbitrary magnetic field? You can't really figure out the magnetic field if you only have 1 variable.
is total force is magnitude of the loop???
Hi Jani, i'm not sure i understand the question. The total force (or Net Force) is acting on the loop. There is an equal but opposite force acting on the long wire thanks to Newton's third law.
hey bro I just watched this video to sew the magnitude of F2 and you just skipped that😥
This video should be avoided by Indian student because hand rule convention here is different...you will get confused
why would u use a r there i got confused and had to rewrite all my calculations :(
what a G