@@MAFarooqi Dear sir, thank you for your quick respond. My question is, If we have the same inductor and excited by the same current but different core material would the flux be difference. My understanding is that flux is generated by the current. My second question, Is not the flux (phi) and the H be the same? Both generated by the current. Thank you.
@@alimovahedi7714 Yes, definitely. If you use a core with high permeability (larger mu), there will be more flux (stronger magnet) and higher flux density. Flux (phi) and magnetic field strength (H) are two different things. As an analogy to electrical circuits, you may consider H (more precisely mmf) to be something similar to voltage and phi to be similar to current in electrical circuits.
أسأل الله العظيم أن يجعل مثواك جنات الفردوس الأعلى
You are really helping me very much
بارك الله فيك ورزقك الفردوس الاعلى
Jazakallah, beautiful explanation sir, very helpful, keep sharing lectures
Thanks Farooqi, May Allah Bless You !
Jazaka Laho bikhayr brother, really great content.
thanks.
jazkallah brother u help me
I would like to see the rule of ur to the flux in a fruit material core of an inductor please, thank you.
Magnetic field of a solenoid is discussed in the first lecture at the following link czcams.com/video/ERLT2Kc6iYw/video.html
@@MAFarooqi Dear sir, thank you for your quick respond. My question is, If we have the same inductor and excited by the same current but different core material would the flux be difference. My understanding is that flux is generated by the current.
My second question, Is not the flux (phi) and the H be the same? Both generated by the current. Thank you.
@@alimovahedi7714 Yes, definitely. If you use a core with high permeability (larger mu), there will be more flux (stronger magnet) and higher flux density.
Flux (phi) and magnetic field strength (H) are two different things. As an analogy to electrical circuits, you may consider H (more precisely mmf) to be something similar to voltage and phi to be similar to current in electrical circuits.
@@MAFarooqi Dear Sir, thank you and I do appreciate for your time.
Flux never flows, it get established!
What do you mean by gets established? Flux and flux lines are something hypothetical used to explain the phenomenon associated with magnets.