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--- 184_notes:rhr [2018/05/15 16:06] – curdemma
+++ 184_notes:rhr [2022/11/06 16:07] – valen176
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-[[184_notes:superposition_b|Next Page: Superposition of Magnetic Fields]]
+/*[[184_notes:motiv_b_force|Next Page: Magnetic Forces in the Real world]]
-[[184_notes:moving_q|Previous Page: Moving Charges Make Magnetic Fields]]
+[[184_notes:moving_q|Previous Page: Moving Charges Make Magnetic Fields]]*/
 ===== The Right Hand Rule =====
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 In this method, you start with your hand completely open and in an "L" shape. Point your fingers in the direction of $\vec{A}$, then curl your fingers toward the direction of $\vec{B}$. Whichever way your thumb points is the direction of $\vec{C}$.
-{{183_notes:rhrv1.png?150}} {{183_notes:rhrv1.5.png?150}}
+[{{183_notes:rhrv1.png?150|Fingers point in direction of A }}] [{{183_notes:rhrv1.5.png?150|Fingers curl towards B}}]
 In the case of these pictures, $\vec{C}$ would point out of the whiteboard.
@@ Line 20: / Line 20: @@
 ====Method 2 - Three Fingers====
-{{  184_notes:rhrv2.png?200|Three fingers}}
+[{{  184_notes:rhrv2.png?200|Three fingers}}]
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 Then, again, your thumb will point in the direction of $\vec{C}$, which in this case is out of the whiteboard.
+====Method 3 - Shortcut for Magnetism====
+In this method, you start by pointing your thumb in the direction of the velocity of a point charge, then you curl your fingers. $\vec{B}$ will point in directions tangent to the circle your fingers make as they curl. This works for a positive charge, if the charge is negative, flip your hand and point your thumb in the direction of $-\vec{v}$ instead.
+[{{  184_notes:rhrv3b.png?200|Shortcut}}]
+=== Video Overview of the Methods ===
+{{youtube>tvv72xl164c?large}}