Schulformeln F = m a {\displaystyle F=ma} (1)
F Z p = m v 2 r = − F Z f {\displaystyle {{F}_{Zp}}={\frac {mv{}^{\text{2}}}{r}}=-{{F}_{Zf}}} (2)
F L → = q v → × B → = q v B sin ( ∢ ( v , B ) ) , ⇒ ( F L = q v B ) ⇔ v → ⊥ B → {\displaystyle {\overrightarrow {{F}_{L}}}=q{\overrightarrow {v}}\times {\overrightarrow {B}}=qvB\sin(\sphericalangle (v,B)),\quad \Rightarrow \left({{F}_{L}}=qvB\right)\Leftrightarrow {\overrightarrow {v}}\bot {\overrightarrow {B}}} (3)
F e l = Q E E=elktrisches Feld Q=Ladung {\displaystyle {{F}_{el}}=QE{\text{ E=elktrisches Feld Q=Ladung }}} (4)
F G r a v = 1 4 π ε 0 Q 1 Q 2 Δ r {\displaystyle {{F}_{Grav}}={\frac {1}{4\pi {{\varepsilon }_{0}}}}{\frac {{{Q}_{1}}{{Q}_{2}}}{\Delta r}}} (5)
F C = 2 m v ω sin ( θ ) θ =Winkel zwischen Bewegungsrichtung und Drehachse {\displaystyle {{F}_{C}}=2mv\omega \sin(\theta ){\text{ }}\theta {\text{=Winkel zwischen Bewegungsrichtung und Drehachse}}} (6)
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