Forwarded from Amazing Physicsπ₯°
Let's Belajar Physics
Topic F4
Force & Motion I
(2.5: Momentum)
π³amazingPhysicsπ³
Topic F4
Force & Motion I
(2.5: Momentum)
π³amazingPhysicsπ³
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Forwarded from Serene NotesChannel Κγ£β’α΄₯β’Κγ£
π‘Fizik bersama Heera dan Hanis
4.1 - Daya ke atas konduktor pembawa arus dalam suatu medan magnet
𧲠Apabila konduktor pembawa arus diletakkan dalam suatu medan magnet, konduktor tersebut akan mengalami DAYA
𧲠Arah daya bergantung pada :
π Arah arus
π Arah medan magnet
𧲠Daya pada konduktor pembawa arus dalam medan terhasil daripada ?
π Interaksi di antara 2 medan magnet
β medan magnet drpd arus elektrik dalam konduktor
β medan magnet drpd magnet kekal
π« - 2 medan magnet ini bergabung utk menghasilkan 1 medan magnet paduan yg dikenali sbgaiMEDAN LASTIK
π CORAK medan lastik = arah tindakan daya pada konduktor itu
Apakah itu medan lastik ? (Pg 138)
πmedan magnet paduan yg dihasilkan oleh interaksi antara medan magnet drpd konduktor pembawa arus dgn medan magnet drpd magnet kekal
~ bersambung ~
πͺ΄English Version : https://t.me/heeranotes/365
#physics #c4 #f5
#malay
#heera
By - @heeranotes and @bimoobmo
4.1 - Daya ke atas konduktor pembawa arus dalam suatu medan magnet
𧲠Apabila konduktor pembawa arus diletakkan dalam suatu medan magnet, konduktor tersebut akan mengalami DAYA
𧲠Arah daya bergantung pada :
π Arah arus
π Arah medan magnet
𧲠Daya pada konduktor pembawa arus dalam medan terhasil daripada ?
π Interaksi di antara 2 medan magnet
β medan magnet drpd arus elektrik dalam konduktor
β medan magnet drpd magnet kekal
π« - 2 medan magnet ini bergabung utk menghasilkan 1 medan magnet paduan yg dikenali sbgai
π CORAK medan lastik = arah tindakan daya pada konduktor itu
Apakah itu medan lastik ? (Pg 138)
π
~ bersambung ~
πͺ΄English Version : https://t.me/heeranotes/365
#physics #c4 #f5
#malay
#heera
By - @heeranotes and @bimoobmo
π2π1
Forwarded from Serene NotesChannel Κγ£β’α΄₯β’Κγ£
π‘Physics with Heera
4.1 Force on a Current-carrying Conductor in a Magnetic Field
π§²When a current-carrying conductor is placed in a magnetic field, the conductor will experience FORCE
π§²Direction of the force depends on :
πDirection of the current
πDirection of the magnetic field
π§²Force on a current-carrying conductor in a magnetic field is produced by?
πThe interaction between 2 magnetic fields
β magnetic field from the electric current in the conductor
βmagnetic field from the permanent magnet
π«The 2 magnetic fields combine to produce resultant magnetic field that is known asCATAPULT FIELD
πThe PATTERN of the catapult field = direction of the force acting on the conductor
What is Catapult field? (Pg 138)
πA resultant magnetic field produced by the interaction between the magnetic field from a current-carrying conductor and magnetic field from a permanent magnet
~ to be continued ~
#physics #c4 #f5
#heera
By - @heeranotes
4.1 Force on a Current-carrying Conductor in a Magnetic Field
π§²When a current-carrying conductor is placed in a magnetic field, the conductor will experience FORCE
π§²Direction of the force depends on :
πDirection of the current
πDirection of the magnetic field
π§²Force on a current-carrying conductor in a magnetic field is produced by?
πThe interaction between 2 magnetic fields
β magnetic field from the electric current in the conductor
βmagnetic field from the permanent magnet
π«The 2 magnetic fields combine to produce resultant magnetic field that is known as
πThe PATTERN of the catapult field = direction of the force acting on the conductor
What is Catapult field? (Pg 138)
π
~ to be continued ~
#physics #c4 #f5
#heera
By - @heeranotes
π9
π‘Fizik form 4 bab 2
( Daya dan gerakan)
πPita detik
( Daya dan gerakan)
πPita detik