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Title (created ) Formula
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
Exercises # Owner Attributes Action
AG Zentripetalkraft Lorentzkraft Spannung kinetische Energie U=EqU = \dfrac{E}{q}
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
F=qvBF = qvB
F=mv2rF = m\dfrac{v^2}{r}
3 TeX\TeXercises
  • https://texercises.com/collection/zentripetalkraft-lorentzkraft-spannung-kinetische-energie/
AG Energieerhaltung P=K Etot =!Etot\sum E_{\scriptscriptstyle\rm tot} \stackrel{!}{=} \sum E_{\scriptscriptstyle\rm tot}'
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
Epot=mghE_{\rm \scriptscriptstyle pot} = mgh
4 TeX\TeXercises
  • https://texercises.com/collection/energieerhaltung-pk/
AG Geschwindigkeitsverhältnis und Temperaturverhältnis Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
Ek=f2kBTE_k = \dfrac{f}{2} k_B T
4 TeX\TeXercises
  • https://texercises.com/collection/geschwindigkeitsverhaltnis-und-temperaturverhaltnis/
AG Geschwindigkeitsverhältnis proportional Massenverhältnis Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
Ek=f2kBTE_k = \dfrac{f}{2} k_B T
2 TeX\TeXercises
  • https://texercises.com/collection/geschwindigkeitsverhaltnis-proportional-massenverhaltnis/
AG Kinetische Energie, Wirkungsgrad, spezifische Energie η=aA\eta = \dfrac{a}{A}
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
E=mE^E = m \cdot \hat E
3 TeX\TeXercises
  • https://texercises.com/collection/kinetische-energie-wirkungsgrad-spezifische-energie/
AG Dopplereffekt und kinetische Energie fB=fSc±vBcvSf_B = f_S \cdot \frac{c\pm v_B}{c\mp v_S}
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
1 TeX\TeXercises
  • https://texercises.com/collection/dopplereffekt-und-kinetische-energie/
AG Lorentzkraft und kinetische Energie Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
F=qvBF = qvB
1 TeX\TeXercises
  • https://texercises.com/collection/lorentzkraft-und-kinetische-energie/
AG Spannung und kinetische Energie U=EqU = \dfrac{E}{q}
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
4 TeX\TeXercises
  • https://texercises.com/collection/spannung-und-kinetische-energie/
AG Energieerhaltung K=P+K Etot =!Etot\sum E_{\scriptscriptstyle\rm tot} \stackrel{!}{=} \sum E_{\scriptscriptstyle\rm tot}'
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
Epot=mghE_{\rm \scriptscriptstyle pot} = mgh
5 TeX\TeXercises
  • https://texercises.com/collection/energieerhaltung-kpk/
AG Leistung und kinetische Energie Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
P=Et=Wt=QtP = \dfrac{E}{t} = \dfrac{W}{t} = \dfrac{Q}{t}
9 TeX\TeXercises
  • https://texercises.com/collection/leistung-und-kinetische-energie/
AG Fluchtgeschwindigkeit F=Gm1m2r2F = G \dfrac{m_1m_2}{r^2}
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
6 TeX\TeXercises
  • https://texercises.com/collection/fluchtgeschwindigkeit/
AG Kinetische Energie und Impuls p=mvp = mv
Ekin=12mv2E_{\rm \scriptscriptstyle kin} = \dfrac12 mv^2
6 TeX\TeXercises
  • https://texercises.com/collection/kinetische-energie-und-impuls/