Car in curve
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The following quantities appear in the problem:
Masse \(m\) / Kraft \(F\) / Geschwindigkeit \(v\) / Ortsfaktor \(g\) / Radius \(r\) / Reibungskoeffizient \(\mu_{\rm Gl,H}\) /
The following formulas must be used to solve the exercise:
\(F = mg \quad \) \(F_R = \mu F_\bot \quad \) \(F = m\dfrac{v^2}{r} \quad \)
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Exercise:
How fast can a car drive along a curve with rO radius without sliding off the wet street? Coefficient of friction between tires and street is mhO.
Solution:
newqtyr.em newqtymuH. % KreisSchritte PGleichungsscFHmax msscaZ PGleichungsscmuHsscFN fracmv^r PGleichungsscmuH m g fracmv^r % AlgebraSchritte MGleichungsscmuHmgr mv^ MGleichungv^ sscmuHgr % PHYSMATH solqtyvsqrtsscmuHgrsqrtmuHn*ncgn*rn al v vf sqrtmuHncgr v vII
How fast can a car drive along a curve with rO radius without sliding off the wet street? Coefficient of friction between tires and street is mhO.
Solution:
newqtyr.em newqtymuH. % KreisSchritte PGleichungsscFHmax msscaZ PGleichungsscmuHsscFN fracmv^r PGleichungsscmuH m g fracmv^r % AlgebraSchritte MGleichungsscmuHmgr mv^ MGleichungv^ sscmuHgr % PHYSMATH solqtyvsqrtsscmuHgrsqrtmuHn*ncgn*rn al v vf sqrtmuHncgr v vII