TIME-LAPSE IF YOU NEED !! 🤗🤗 00:00 Introduction: Magnetic Effects of Electric Current 04:13 Introduction: Magnetic Field 16:56 History of Magnets 42:10 Magnetic Field Lines 59:36 Properties of Magnetic Field Lines 01:21:06 Magnetic Effects of Current 01:43:40 Magnetic Field due to a Current through a Straight Conductor 01:55:15 Maxwell's Right Hand Thumb Rule 02:12:12 Magnetic Field due to a Current through a Circular Loop 02:34:30 Magnetic Field due to a Current in a Solenoid 02:59:53 Force on a Current Carrying Conductor in a Magnetic Field 03:50:11 Fleming's Left Hand Rule 03:53:56 Electric Motor 04:36:18 Electromagnetic Induction 05:10:57 Fleming's Right Hand Rule 05:15:18 Ways to Induce Current in a Circuit 05:48:32 Direct Current and Alternating Current 06:18:17 Electric Generator 07:08:19 Domestic Electric Circuits 08:44:17 Faults and Safety Measures in Domestic Electric Circuit
Topics Timelapse 00:00 Introduction: Magnetic Effects of Electric Current 04:13 Introduction: Magnetic Field 16:56 History of Magnets 42:10 Magnetic Field Lines 59:36 Properties of Magnetic Field Lines 01:21:06 Magnetic Effects of Current 01:43:40 Magnetic Field due to a Current through a Straight Conductor 01:55:15 Maxwell's Right Hand Thumb Rule 02:12:12 Magnetic Field due to a Current through a Circular Loop 02:34:30 Magnetic Field due to a Current in a Solenoid 02:59:53 Force on a Current Carrying Conductor in a Magnetic Field 03:50:11 Fleming's Left Hand Rule 03:53:56 Electric Motor 04:36:18 Electromagnetic Induction 05:10:57 Fleming's Right Hand Rule 05:15:18 Ways to Induce Current in a Circuit 05:48:32 Direct Current and Alternating Current 06:18:17 Electric Generator 07:08:19 Domestic Electric Circuits 08:44:17 Faults and Safety Measures in Domestic Electric Circuit 09:43:54 Question 1: NCERT Solutions (Page no. 224): Magnetic Effects of Electric Current Question 1. Why does a compass needle get deflected when brought near a bar magnet? 09:53:31 Question 1 to 3: NCERT Solutions (Page no. 228): Magnetic Effects of Electric Current Question 1. Why don't two magnetic field lines intersect each other? 10:11:29 Question 1 & 2: NCERT Solutions (Page no. 229): Magnetic Effects of Electric Current 10:34:41 Question 3: NCERT Solutions (Page no. 230): Magnetic Effects of Electric Current 10:36:17 Question 1: NCERT Solutions (Page no. 231): Magnetic Effects of Electric Current 10:38:20 Question 1 & 2: NCERT Solutions (Page no. 232): Magnetic Effects of Electric Current 11:05:08 Question 1 to 3: NCERT Solutions (Page no. 233): Magnetic Effects of Electric Current 11:32:00 Question 1: NCERT Solutions (Page no. 236): Magnetic Effects of Electric Current 11:41:32 Question 1 to 4: NCERT Solutions (Page no. 237): Magnetic Effects of Electric Current 12:15:19 Question 1 to 3: NCERT Solutions (Page no. 238): Magnetic Effects of Electric Current 12:41:36 Question 1 to 10: NCERT Exercise Solutions: Magnetic Effects of Electric Current Question 1. Which of the following correctly describes the magnetic field near a long straight wire? 14:13:55 Question 11 to 18: NCERT Exercise Solutions: Magnetic Effects of Electric Current 14:40:21 Website Overview ❤❤❤😢😢😢 Please like
Important topics according to syllabus 2022-23 00:00 Introduction 04:13 to 16:56 Magnetic field 42:10 to 01:21:06 Magnetic field lines and its properties 01:21:06 Magnetic effect of current 01:43:40 Magnetic effect due to Current through a straight Conductor 01:55:15 Maxwell right hand thumb rule 02:12:12 to 02:59:53 Magnetic field due to Current through a circular loop and solenoid 02:59:53 to 03:50:11 Force on current carrying Conductor in a Magnetic field 03:50:11 to 03:53:56 Fleming Left hand rule 05:48:32 to 06:18:17 DC and AC Current 07:08:19 to 08:44:17 Domestic electric circuits That's all about your syllabus and if you have time you can see whole video. Thanks to Vibhuti Mam and Magnet Brains 🧠!
8:46:05 a state of great relief ....😊😊🎉🎉..btw thanks so much vibhuti mam and magnet brains for explaining this chapter in very easy and interesting way..infact for explaining all chapters n subjects...🙏🙏
Hello mam , My name is Hiten and i also studied whole science subject from you in my 10th grade . And i also score very well in boards it is 95 /100 . Thanks for your all lectures , suggestions, guidelines mam. Have a gr8 day ❤❤
Ma'am you told that earth behaves likes a magnet as per william gilbert then how compass needle north pole is in the direction of earth north pole as like repels ??
Thanks so much for your comment! To answer your question, William Gilbert observed that the Earth behaves like a magnet. This means that the Earth has a north and south pole, just like a magnet. The compass needle is attracted to the Earth's magnetic field, so it points towards the north pole of the Earth.
Let me explain you if you don't understand in this bar magnet north pole attract towards earth 's North pole . according to William sir the north pole of earth is considered as geographical south and south pole is considered as geographical north pole . Mean north pole of bar magnet attract to geographical south pole . I hope you understand 🙏🙏
Thanks for your great lectures ,mam.I was looking for a teacher who could teach me like my own teacher,and I found that very teacher here. Once again thanks ❤❤❤❤❤
00:00 Introduction: Magnetic Effects of Electric Current 04:13 Introduction: Magnetic Field 16:56 History of Magnets 42:10 Magnetic Field Lines 59:36 Properties of Magnetic Field Lines 01:21:06 Magnetic Effects of Current 01:43:40 Magnetic Field due to a Current through a Straight Conductor 01:55:15 Maxwell's Right Hand Thumb Rule 02:12:12 Magnetic Field due to a Current through a Circular Loop 02:34:30 Magnetic Field due to a Current in a Solenoid 02:59:53 Force on a Current Carrying Conductor in a Magnetic Field 03:50:11 Fleming's Left Hand Rule 03:53:56 Electric Motor 04:36:18 Electromagnetic Induction 05:10:57 Fleming's Right Hand Rule 05:15:18 Ways to Induce Current in a Circuit 05:48:32 Direct Current and Alternating Current 06:18:17 Electric Generator 07:08:19 Domestic Electric Circuits 08:44:17 Faults and Safety Measures in Domestic Electric Circuit 09:43:54 Question 1: NCERT Solutions (Page no. 224): Magnetic Effects of Electric Current Question 1. Why does a compass needle get deflected when brought near a bar magnet? 09:53:31 Question 1 to 3: NCERT Solutions (Page no. 228): Magnetic Effects of Electric Current Question 1. Why don't two magnetic field lines intersect each other? 10:11:29 Question 1 & 2: NCERT Solutions (Page no. 229): Magnetic Effects of Electric Current 10:34:41 Question 3: NCERT Solutions (Page no. 230): Magnetic Effects of Electric Current 10:36:17 Question 1: NCERT Solutions (Page no. 231): Magnetic Effects of Electric Current 10:38:20 Question 1 & 2: NCERT Solutions (Page no. 232): Magnetic Effects of Electric Current 11:05:08 Question 1 to 3: NCERT Solutions (Page no. 233): Magnetic Effects of Electric Current 11:32:00 Question 1: NCERT Solutions (Page no. 236): Magnetic Effects of Electric Current 11:41:32 Question 1 to 4: NCERT Solutions (Page no. 237): Magnetic Effects of Electric Current 12:15:19 Question 1 to 3: NCERT Solutions (Page no. 238): Magnetic Effects of Electric Current 12:41:36 Question 1 to 10: NCERT Exercise Solutions: Magnetic Effects of Electric Current Question 1. Which of the following correctly describes the magnetic field near a long straight wire? 14:13:55 Question 11 to 18: NCERT Exercise Solutions: Magnetic Effects of Electric Current 14:40:21 Website Overview
when current passes through circular loop in a clockwise direction does its North pole is outside the loop and is this constant for whole wire? Pls clear my doubt mb
no plz apply right hand thumb rule by taking half parts of it because the direction of current is different in these inside pole will be north and south
Maam i have a doubt . As in Magnetic field due to a current through a circular loop.....The direction of the flow of current Through RHS in both clock wise and anticlockwise is same but how come the Poles are different
Mam in electric conduction the current passing forms a magnetic field.Then if a needle is placed then will it show its magnetic lines? And when magnitude of current is increased then the strength of its magnetic field is increased and then does its magnetic field lines increase? Pls pls clear my doubt mb
Yes! You are absolutely right. When the current in a conductor increases, the magnetic field around the conductor also increases. If you placed a compass near the conductor, you would see the needle deflect.
plz plz Plz Its a request from me kindly dont upload such long video's that'll make the viewers watch the lectures of the other creators and channels as everybody prefers learning concept in a short time
The way magnet attracts iron , the same way magnet brains attaract students towards the because of how wonderfully teaching us.❤ Thank you soo much maam
Mam 💖🫶. Magentic field due to a current carrying conductor. ?????? Mam please 🥺 🙏🙏. Give answer this ❓❓❓❓❓❓❓ question. Please mam your are very bestt techer pf physics. 😊😊😊😊😊😊😊😊💖💖💖💖💖💖💖💖😊😊😊😊😊.
Doubt - plsssssssss tell ki as u have said ki magnetic field is inversely proportional to the distance from the conductor, then iska mtlb circular loop s jese jese aap door jaoge current less hota jaega , then aapne esa kyu kha ki magnetic field centre m sbse jyaada h ??? Pls anss
@@alan97930yaa dude I know this very well many topics r cut in the syllabus of CBSE in session of 2023-24 For ex. Electric motor, electromagnetic induction, electric generator, these all topics are cut so I wish this info will help ful to u bro 😊🙏🧑🎓🧑🎓🧑🎓
Thank you so much for your kind words! We're glad you found our videos helpful and informative. We hope you continue to enjoy watching and learn something new from each one.
Ma'am I have a query, why do we use cardboard for the experiment of magnetic effect due to current through a straight conductor, Why not metals like steel???
If we keep the current carrying circular loop closer to their sides then the magnetic field occurring from the conductor will repel each other? Because their like poles are facing each other. What would happen then?
yes nothing would happen next but repulsion will appear (if they are like poles or same poles) but if they are unlike so................................. and their respective magnetic field won't allow them to get attract and if the have different poles their magnetic field will get changed towards other magnet
Magnetic field lines are the representation of magnetic field whereas magnetic field is the space where force of attraction and repulsion of magnet can be determined
at 4:3:50, u mentioned the direction of magnetic force around side AB as downwards. how did that happen?. the direction of the force shud be inside the screen ryt?
Hi there! Thanks for your question. The direction of the magnetic force around side AB is downwards because of the right-hand rule. This means that if you point your right thumb in the direction of the current (into the screen), your fingers will curl in the direction of the magnetic force (downwards). I hope this helps!
@@MagnetBrainsEducation hy it is flemings left hand rule itself. i understood it now. when vibhti maam mentioned the direction of magnetic force as downwards along side AB , she meant inside the screen itself. i got it now!
Magnet brains explaining what magnet actually is! The way magnet attracts iron, the same way magnet brains attracts the students towards them because of how wonderfully they teaches us.
actually the current flows from negative (i.e electron) to positive. Since the flow of electron determines the flow of electric current . Before electron was discovered they thought current flows from positive to terminal . the flow of electric current from positive to negative is called conventional current . But actually it flows from -ve to +ve since the electron does the work and the electron is -ve
Mam Agar kisi vi magnet 🧲 ko North pole se tod dia Jae to kya new hone Bala magnet me bo puraka pura North pole rahega... yaa new magnet ka ak side North or dusra south hoga........?...please answer mam please.......!
Thank you so much for your kind words! We're so happy to have helped you out and that you're doing well in class because of our videos. Thank you for being a part of our community and we hope you continue to enjoy our content!
We're so glad you're enjoying our educational videos! We hope you're learning a lot and that these videos are helping you out in school. Keep up the good work!
TIME-LAPSE IF YOU NEED !! 🤗🤗
00:00 Introduction: Magnetic Effects of Electric Current
04:13 Introduction: Magnetic Field
16:56 History of Magnets
42:10 Magnetic Field Lines
59:36 Properties of Magnetic Field Lines
01:21:06 Magnetic Effects of Current
01:43:40 Magnetic Field due to a Current through a Straight Conductor
01:55:15 Maxwell's Right Hand Thumb Rule
02:12:12 Magnetic Field due to a Current through a Circular Loop
02:34:30 Magnetic Field due to a Current in a Solenoid
02:59:53 Force on a Current Carrying Conductor in a Magnetic Field
03:50:11 Fleming's Left Hand Rule
03:53:56 Electric Motor
04:36:18 Electromagnetic Induction
05:10:57 Fleming's Right Hand Rule
05:15:18 Ways to Induce Current in a Circuit
05:48:32 Direct Current and Alternating Current
06:18:17 Electric Generator
07:08:19 Domestic Electric Circuits
08:44:17 Faults and Safety Measures in Domestic Electric Circuit
😊😊
Dhanyawad ❤
Tysm❤
Thank you
Thanks a lot
Magnet brains teaching magnet.😂😂😂😂❤❤
😂
😶
😂
yes
@@akshaymishra4448 oo
Topics Timelapse
00:00 Introduction: Magnetic Effects of Electric Current
04:13 Introduction: Magnetic Field
16:56 History of Magnets
42:10 Magnetic Field Lines
59:36 Properties of Magnetic Field Lines
01:21:06 Magnetic Effects of Current
01:43:40 Magnetic Field due to a Current through a Straight Conductor
01:55:15 Maxwell's Right Hand Thumb Rule
02:12:12 Magnetic Field due to a Current through a Circular Loop
02:34:30 Magnetic Field due to a Current in a Solenoid
02:59:53 Force on a Current Carrying Conductor in a Magnetic Field
03:50:11 Fleming's Left Hand Rule
03:53:56 Electric Motor
04:36:18 Electromagnetic Induction
05:10:57 Fleming's Right Hand Rule
05:15:18 Ways to Induce Current in a Circuit
05:48:32 Direct Current and Alternating Current
06:18:17 Electric Generator
07:08:19 Domestic Electric Circuits
08:44:17 Faults and Safety Measures in Domestic Electric Circuit
09:43:54 Question 1: NCERT Solutions (Page no. 224): Magnetic Effects of Electric Current
Question 1. Why does a compass needle get deflected when brought near a bar magnet?
09:53:31 Question 1 to 3: NCERT Solutions (Page no. 228): Magnetic Effects of Electric Current
Question 1. Why don't two magnetic field lines intersect each other?
10:11:29 Question 1 & 2: NCERT Solutions (Page no. 229): Magnetic Effects of Electric Current
10:34:41 Question 3: NCERT Solutions (Page no. 230): Magnetic Effects of Electric Current
10:36:17 Question 1: NCERT Solutions (Page no. 231): Magnetic Effects of Electric Current
10:38:20 Question 1 & 2: NCERT Solutions (Page no. 232): Magnetic Effects of Electric Current
11:05:08 Question 1 to 3: NCERT Solutions (Page no. 233): Magnetic Effects of Electric Current
11:32:00 Question 1: NCERT Solutions (Page no. 236): Magnetic Effects of Electric Current
11:41:32 Question 1 to 4: NCERT Solutions (Page no. 237): Magnetic Effects of Electric Current
12:15:19 Question 1 to 3: NCERT Solutions (Page no. 238): Magnetic Effects of Electric Current
12:41:36 Question 1 to 10: NCERT Exercise Solutions: Magnetic Effects of Electric Current
Question 1. Which of the following correctly describes the magnetic field near a long straight wire?
14:13:55 Question 11 to 18: NCERT Exercise Solutions: Magnetic Effects of Electric Current
14:40:21 Website Overview
❤❤❤😢😢😢
Please like
You deserve likes bro❤
😘😘
Important topics according to syllabus 2022-23
00:00 Introduction
04:13 to 16:56 Magnetic field
42:10 to 01:21:06 Magnetic field lines and its properties
01:21:06 Magnetic effect of current
01:43:40 Magnetic effect due to Current through a straight Conductor
01:55:15 Maxwell right hand thumb rule
02:12:12 to 02:59:53 Magnetic field due to Current through a circular loop and solenoid
02:59:53 to 03:50:11 Force on current carrying Conductor in a Magnetic field
03:50:11 to 03:53:56 Fleming Left hand rule
05:48:32 to 06:18:17 DC and AC Current
07:08:19 to 08:44:17 Domestic electric circuits
That's all about your syllabus and if you have time you can see whole video.
Thanks to Vibhuti Mam and Magnet Brains 🧠!
Thank you for your positive feedback! We're glad you found our videos helpful.
Bro thank u that was really helpful
Thanks 👍
Thank You 😊
@@MagnetBrainsEducation I have doubt question
8:46:05 a state of great relief ....😊😊🎉🎉..btw thanks so much vibhuti mam and magnet brains for explaining this chapter in very easy and interesting way..infact for explaining all chapters n subjects...🙏🙏
Hello mam , My name is Hiten and i also studied whole science subject from you in my 10th grade . And i also score very well in boards it is 95 /100 . Thanks for your all lectures , suggestions, guidelines mam. Have a gr8 day ❤❤
1:57:08 Sunder se clock😂
Acha majak tha mam 😂
Thank you vibhuti mam, I want this chapter really 😃
Thanks for this ma'am ❤️😌..this helps me a lot 😊
Ma'am you told that earth behaves likes a magnet as per william gilbert then how compass needle north pole is in the direction of earth north pole as like repels ??
Thanks so much for your comment! To answer your question, William Gilbert observed that the Earth behaves like a magnet. This means that the Earth has a north and south pole, just like a magnet. The compass needle is attracted to the Earth's magnetic field, so it points towards the north pole of the Earth.
Let me explain you if you don't understand in this bar magnet north pole attract towards earth 's North pole . according to William sir the north pole of earth is considered as geographical south and south pole is considered as geographical north pole . Mean north pole of bar magnet attract to geographical south pole . I hope you understand 🙏🙏
😅@@PreetRandhawa-ng7qc
Magnet brain knows all information about magnets 😅👏✨
Thanks for your great lectures ,mam.I was looking for a teacher who could teach me like my own teacher,and I found that very teacher here.
Once again thanks ❤❤❤❤❤
She is the best teacher of physics, i have ever read with
Is there any difference between maxwell right hand thumb rule and fleming right hand rule....please mam tell me...
fleming’s left hand rule
Thankuu so much ma'am for this amazing session 🥰🥰
Mam ne to hame pura mistri hi bana diya. 😂😂😂😂
shi baat hai😂👍🏻
Sahi bole
You are right 😊😊😊😊
Yess you are right❤❤
Wow😂
00:00 Introduction: Magnetic Effects of Electric Current
04:13 Introduction: Magnetic Field
16:56 History of Magnets
42:10 Magnetic Field Lines
59:36 Properties of Magnetic Field Lines
01:21:06 Magnetic Effects of Current
01:43:40 Magnetic Field due to a Current through a Straight Conductor
01:55:15 Maxwell's Right Hand Thumb Rule
02:12:12 Magnetic Field due to a Current through a Circular Loop
02:34:30 Magnetic Field due to a Current in a Solenoid
02:59:53 Force on a Current Carrying Conductor in a Magnetic Field
03:50:11 Fleming's Left Hand Rule
03:53:56 Electric Motor
04:36:18 Electromagnetic Induction
05:10:57 Fleming's Right Hand Rule
05:15:18 Ways to Induce Current in a Circuit
05:48:32 Direct Current and Alternating Current
06:18:17 Electric Generator
07:08:19 Domestic Electric Circuits
08:44:17 Faults and Safety Measures in Domestic Electric Circuit
09:43:54 Question 1: NCERT Solutions (Page no. 224): Magnetic Effects of Electric Current
Question 1. Why does a compass needle get deflected when brought near a bar magnet?
09:53:31 Question 1 to 3: NCERT Solutions (Page no. 228): Magnetic Effects of Electric Current
Question 1. Why don't two magnetic field lines intersect each other?
10:11:29 Question 1 & 2: NCERT Solutions (Page no. 229): Magnetic Effects of Electric Current
10:34:41 Question 3: NCERT Solutions (Page no. 230): Magnetic Effects of Electric Current
10:36:17 Question 1: NCERT Solutions (Page no. 231): Magnetic Effects of Electric Current
10:38:20 Question 1 & 2: NCERT Solutions (Page no. 232): Magnetic Effects of Electric Current
11:05:08 Question 1 to 3: NCERT Solutions (Page no. 233): Magnetic Effects of Electric Current
11:32:00 Question 1: NCERT Solutions (Page no. 236): Magnetic Effects of Electric Current
11:41:32 Question 1 to 4: NCERT Solutions (Page no. 237): Magnetic Effects of Electric Current
12:15:19 Question 1 to 3: NCERT Solutions (Page no. 238): Magnetic Effects of Electric Current
12:41:36 Question 1 to 10: NCERT Exercise Solutions: Magnetic Effects of Electric Current
Question 1. Which of the following correctly describes the magnetic field near a long straight wire?
14:13:55 Question 11 to 18: NCERT Exercise Solutions: Magnetic Effects of Electric Current
14:40:21 Website Overview
Mam why is earth replaced by magnet with south pole at the top and not north pole 38:03
Because it is replaced simple
Because earth north Pole is geographically south pole and vice versa
This video is really helpful for me thanks you mam😊😊😊
Magnet brains teaching about magnet 😂
when current passes through circular loop in a clockwise direction does its North pole is outside the loop and is this constant for whole wire?
Pls clear my doubt mb
no plz apply right hand thumb rule by taking half parts of it because the direction of current is different in these inside pole will be north and south
Mam is best teacher in the world thank you 🙏 magnet brains ..❤❤❤
2:02:25> haath wahi rahega fingers bhi wahi rahega 😢😂😂
Thank you for your comment! We're glad you found our video helpful. Keep up the good work and we hope you have a great day!
Who is watching on 2x 😂😂
I but not understand clearly😂😂
Hello
Maam i have a doubt . As in Magnetic field due to a current through a circular loop.....The direction of the flow of current Through RHS in both clock wise and anticlockwise is same but how come the Poles are different
According to Maxwell right hand thumb rule
Mam please bio ka revision karva dijiye
Please reply 🙏
Hatts of to those jisne puri video ek din me dekh dali.😂😂
Ma'am, can clockwise rule can be used to find the direction of magnetic field??
I think yes
Yes
No beta
Mam you are the best teacher......
Ma'am you are excellent teacher.
Mam in electric conduction the current passing forms a magnetic field.Then if a needle is placed then will it show its magnetic lines? And when magnitude of current is increased then the strength of its magnetic field is increased and then does its magnetic field lines increase?
Pls pls clear my doubt mb
Yes! You are absolutely right. When the current in a conductor increases, the magnetic field around the conductor also increases. If you placed a compass near the conductor, you would see the needle deflect.
Can someone give me timestamp according to 2023-2024 syllabus???? Or just tell me till where should I watch this video 😭
U can search on Google
@@SakshiSingh-zm9qj women ☕☕
Mam good teach 😊😊😊😊😊😊
plz plz Plz Its a request from me kindly dont upload such long video's that'll make the viewers watch the lectures of the other creators and channels as everybody prefers learning concept in a short time
Oh that's ramanujan
Ma'am 24 hour ka ek video chahiye...🙂
Hello Vibhuti Ma'am
Please Biology Ka One Shot Lecture Bhi Layiyega 🥺
Mam bio ka one shot bnye n please please
Ye viedo purana walla short 30 min viedo ko join kar ke banaya hai. Thanks mam for this process it's help to study well.
The way magnet attracts iron , the same way magnet brains attaract students towards the because of how wonderfully teaching us.❤
Thank you soo much maam
Thanks a lot dearest teacher 💞😊
For giving best video
Thank you mam aap ham logo ke liye 13 13 hours ki video banate hai ...
Thankyou so much..❤️💜🙏
Thank you very very thank you for this chapter i have no word how to thank you you gave me a knowledge free offcost once again thank you ❤
5:04:19 Galvanometer is deflected towards clock wise direction not in anti clockwise direction
Am I right ?
Depend on type of current or change
Yaa i had the same confusion 🥲
Pagl
Mam 💖🫶. Magentic field due to a current carrying conductor. ?????? Mam please 🥺 🙏🙏. Give answer this ❓❓❓❓❓❓❓ question. Please mam your are very bestt techer pf physics. 😊😊😊😊😊😊😊😊💖💖💖💖💖💖💖💖😊😊😊😊😊.
Thank you! 😊 We’re glad you think so. Keep learning with Magnet Brains for more great content! 🌟📚
Learning with magnet brain !🖤
Mam induce mai without any cell ke Current flow hoga ?
Yes! You are absolutely right! If there are no cells, then there would be no current flow.
@@MagnetBrainsEducation But mam here in induction current ki flow without cell shown in video
Doubt - plsssssssss tell ki as u have said ki magnetic field is inversely proportional to the distance from the conductor, then iska mtlb circular loop s jese jese aap door jaoge current less hota jaega , then aapne esa kyu kha ki magnetic field centre m sbse jyaada h ???
Pls anss
Kyuki conductor se magnetic field ka distance sabse kam hoga centre mai isliye baha magnetic field jada hoge
Really magnet brains is such a great platform where students r provided best quality education 🙏☺️😊
Bro some topics that ma'am taught were not in ncert😢
@@alan97930yaa dude I know this very well many topics r cut in the syllabus of CBSE in session of 2023-24
For ex. Electric motor, electromagnetic induction, electric generator, these all topics are cut so I wish this info will help ful to u bro 😊🙏🧑🎓🧑🎓🧑🎓
Mam aap jaisa teacher shayad hi iss duniya me ho☺
Thanks Mam...It helps me better and better
SUCCESSFUL SESSION
3:51:27 father mother child is easier to remember 👽👽
Best trick for learning
You are really awosome
Really a wonderful explaination
Thank you so much for your kind words! We're glad you found our videos helpful and informative. We hope you continue to enjoy watching and learn something new from each one.
Ma'am I have a query, why do we use cardboard for the experiment of magnetic effect due to current through a straight conductor, Why not metals like steel???
Same i have this doubt
Because then the metal itself would start acting like a magnet which would ruin the experiment
If we keep the current carrying circular loop closer to their sides then the magnetic field occurring from the conductor will repel each other? Because their like poles are facing each other. What would happen then?
yes nothing would happen next but repulsion will appear (if they are like poles or same poles) but if they are unlike so................................. and their respective magnetic field won't allow them to get attract and if the have different poles their magnetic field will get changed towards other magnet
Very good explanation
Thank you so much for your positive review! We're glad you found our explanation helpful. We hope you continue to enjoy our educational videos!
TQ mam I learn this lesson very clearly 🔥💥😊✨🌟💫
Thank you mam it was so helpful ☺️☺️🤠
Mam all chapters over hai but life process ka one shot kb aayega? aapne pdhya hua
What is the difference between magnetic field lines and magnetic field
Magnetic field lines are the representation of magnetic field whereas magnetic field is the space where force of attraction and repulsion of magnet can be determined
2024 wale attention dee ❤❤❤
Pre😂
at 4:3:50, u mentioned the direction of magnetic force around side AB as downwards. how did that happen?. the direction of the force shud be inside the screen ryt?
Hi there! Thanks for your question. The direction of the magnetic force around side AB is downwards because of the right-hand rule. This means that if you point your right thumb in the direction of the current (into the screen), your fingers will curl in the direction of the magnetic force (downwards). I hope this helps!
@@MagnetBrainsEducation hy it is flemings left hand rule itself. i understood it now. when vibhti maam mentioned the direction of magnetic force as downwards along side AB , she meant inside the screen itself. i got it now!
@@MagnetBrainsEducationin
Mam control and coordination ka revision krva dijiya plzz class 10th
Mam pls upload carbon and its compound plsss mam
Very helpful 🙏
Magnet brains explaining what magnet actually is! The way magnet attracts iron, the same way magnet brains attracts the students towards them because of how wonderfully they teaches us.
@@shreyaashhh333 thanks for your unnecessary advice which I don’t need cause I know my English is good enough!
Hello 👋👋 mam you are best teaching of physics. 😊😊😊😊😊😊
1:54:49 use your right hand
Thnku mam for this helpful video I am in grade 10 this year i was confused in this chapter but now i am clear ❤❤
Me also..
2:00:54 ap ne to dono diagram me magnetic field ka direction clockwise bana rakha he
Thank you so much for letting us know! We will make sure to correct it in our next video. Thank you for being a loyal viewer!
You are best teacher ma'am ❤😊
Ma'am electric current doesn't flow from negative to positive terminal, but you said negative to positive? How?
Must be a mistake.
actually the current flows from negative (i.e electron) to positive. Since the flow of electron determines the flow of electric current . Before electron was discovered they thought current flows from positive to terminal . the flow of electric current from positive to negative is called conventional current . But actually it flows from -ve to +ve since the electron does the work and the electron is -ve
Mam Agar kisi vi magnet 🧲 ko North pole se tod dia Jae to kya new hone Bala magnet me bo puraka pura North pole rahega... yaa new magnet ka ak side North or dusra south hoga........?...please answer mam please.......!
Bo north pole he rahega
Mam there is deleted part can you rectify correctly
There's no way you guys are watching 14 hour video 💀
One ways watch video on 2x fast 😅
Mam plz jldi bio ka revision karaiyye
Respect for this madam
mam can a human body create magnetic field
Your definations are too complex make it more understandable
Magnet brain =magnetic effect🎉😅
thankyou mam for such a great explanation
Thank you ma'am 🎉🎉😊
mam pls tell how to recognize where magnetic field is terminating in current carrying circular loop
bro use right hand thumb rule
2024-25 batch attandance here..↓↓
Aap log bhi magnet ki tarah ho agar hum aplog batch me jaati hu n toh aaplog hme attract kr lete... h...😀😊😉thnx
Ha r aaplog v😂😂
Mam apna mara samaj yeh sara chp betha diya thank you so much 😮😮😮😅💓💓💓💓💓💓
Thx you so much mam aapke vagah se me class me jabab deti hu thankyou
Thank you so much for your kind words! We're so happy to have helped you out and that you're doing well in class because of our videos. Thank you for being a part of our community and we hope you continue to enjoy our content!
Best teacher for Physics. 🎉🎉🎉🎉🎉
Thanks it helps me a lot.
We're so glad our videos could help you out! We'll keep making more videos to help students like you :)
1:13:44 🥼
We're so glad you're enjoying our educational videos! We hope you're learning a lot and that these videos are helping you out in school. Keep up the good work!
You are the great teacher for physics.
Magnet brains teaching magnet 🧲🧲🧲😹😹😹😹😊
Mam aapne btaya hai ki magnet ki north pole earth ke north pole ki taraf attract hota h but hmare book me kch aur hi diya h
Mam ur are amazing 🤩
If there is no any resistor on a circuit and connected to potential diffrence then what happen ?
😂😂😂😂😂
Current flow without any obstacles
Hash!!! Mam esi video ka intazaar tha thank you very much
Thanks Ma'am! Such a wonderful session
Mam ke support se hum mistri van chuke 😁😁😂😂😂
Thank you so much for your kind words! We're glad you're enjoying our videos and that they're helping you learn. Keep up the good work!
I'm watching this vdo 2x speed
Mam choti video h or badi banao 😂😂
Haa bohot short vedio h bro😅