There you are. Only 2 things. At 0° conductor is in parallel to flux lines so no intersection therefore no emf. And at 90° conductor is perpendicular to flux lines, so full cutting of flux lines and hence maximum emf induced. Please correct me if i am wrong.
Thanks, your graph shows the relationship between movement and sine wave in a very smart way.
Thank you for producing a great video with excellent graphical representations.
Nice job!
Very informative video I wish you were my teacher in Humber college 25 years ago and thanks
I wish you were my teacher for all my classes.
What would the sigh wave look like if North Pole of the magnet was going tword the rotor? And and woud it be AC or DC?
What would happen if you go from A to E an back and fourth?
can I use a computer program for create a real sine wave for use in an external circuit?
Yup, you can use a function generator for that. Though it has to be an external device, not just from your home computer
Why the magnetic flux lines are straight and not radial given that the magnetic poles are concave ??
This is a nice video 😻
There you are. Only 2 things. At 0° conductor is in parallel to flux lines so no intersection therefore no emf. And at 90° conductor is perpendicular to flux lines, so full cutting of flux lines and hence maximum emf induced. Please correct me if i am wrong.
You are correct! The directions of flux from the magnet should be changed.
Real, physical demonstration w/ measurements?
are flux and field the same ?
basically, yes they are the same, magnetic field and magnetic flux.
@@harith7260 ty
@@thvtsydneylyf3th077 np
Subscribed Obviously.
Beautiful
Excellent
😊😊😊😊😊
Hmm... poor delivery. Hard to visualize the actual conductor rotating.
This is an excellent visual
Ovo nije u potpunosti točno. Gospodin je prikazao samo jedan kraj petlje, a drugi kraj petlje je potpuno zanemario.
Nice
Good
No ok!
This is wrong.
Please explain.