184_notes:i_b_force

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184_notes:i_b_force [2021/06/16 22:01] – [Force on the whole wire] bartonmo184_notes:i_b_force [2021/07/13 11:58] (current) schram45
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 using the fact that $\frac{dq}{dt}$ is the definition of conventional current (the amount of charge passing a point per second).  using the fact that $\frac{dq}{dt}$ is the definition of conventional current (the amount of charge passing a point per second). 
  
-[{{  184_notes:week11_7.png?350|Magnetic Force produced on a current carrying wire in an external magnetic field}}]+[{{  184_notes:week11_7.png?350|Magnetic Force, F, produced on a current carrying wire in an external magnetic field, B}}]
 This means that the small amount of force on the wire is given by: This means that the small amount of force on the wire is given by:
 $$d\vec{F}= I d\vec{l} \times \vec{B}$$ $$d\vec{F}= I d\vec{l} \times \vec{B}$$
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 ==== Examples ==== ==== Examples ====
-[[:184_notes:examples:Week12_force_between_wires|Magnetic Force between Two Current-Carrying Wires]] +  * [[:184_notes:examples:Week12_force_between_wires|Magnetic Force between Two Current-Carrying Wires]] 
- +    * Video Example: Magnetic Force between Two Current-Carrying Wires 
-[[:184_notes:examples:Week12_force_loop_magnetic_field|Force on a Loop of Current in a Magnetic Field]]+  [[:184_notes:examples:Week12_force_loop_magnetic_field|Force on a Loop of Current in a Magnetic Field]] 
 +    * Video Example: Force on a Loop of Current in a Magnetic Field 
 +{{youtube>BLuU7nZWv5k?large}} 
 +{{youtube>jMoOVHU6RR0?large}}
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  • Last modified: 2021/06/16 22:01
  • by bartonmo