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Title (created ) Formula
A=πr2A = \pi r^2
Exercises # Owner Attributes Action
AG Wärmeleitung und Kreisfläche A=πr2A = \pi r^2
Φ=λT1T2dA\Phi = \lambda \dfrac{T_1-T_2}{d}A
3 TeX\TeXercises
  • https://texercises.com/collection/warmeleitung-und-kreisflache/
AG Elektrisches Feld und Kraft Plattenkondensator E=QεAE = \frac{Q}{\varepsilon A}
F=qEF = q \vec E
A=πr2A = \pi r^2
1 TeX\TeXercises
  • https://texercises.com/collection/elektrisches-feld-und-kraft-plattenkondensator/
AG Weinfass p=FAp = \dfrac{F}{A}
A=πr2A = \pi r^2
p=ϱghp = \varrho g h
5 TeX\TeXercises
  • https://texercises.com/collection/weinfass/
AG Widerstand Leiter und Kreisfläche A=πr2A = \pi r^2
R=ϱAR = \varrho \dfrac{\ell}{A}
8 TeX\TeXercises
  • https://texercises.com/collection/widerstand-leiter-und-kreisflache/
AG Druck Gewichtskraft Fläche p=FAp = \dfrac{F}{A}
F=mgF = mg
A=πr2A = \pi r^2
A=s2A = s^2
A=abA = ab
3 TeX\TeXercises
  • https://texercises.com/collection/druck-gewichtskraft-flache/
AG Magnetischer Fluss und Kreisfläche A=πr2A = \pi r^2
Φ=NBAcosθ\Phi = NBA\cdot \cos\theta
6 TeX\TeXercises
  • https://texercises.com/collection/magnetischer-fluss-und-kreisflache/
AG Druck auf Kreisfläche p=FAp = \dfrac{F}{A}
A=πr2A = \pi r^2
13 TeX\TeXercises
  • https://texercises.com/collection/druck-auf-kreisflache/
AG Masse von elektrischem Leiter ϱ=mV\varrho = \dfrac{m}{V}
F=mgF = mg
A=πr2A = \pi r^2
R=ϱAR = \varrho \dfrac{\ell}{A}
4 TeX\TeXercises
  • https://texercises.com/collection/masse-von-elektrischem-leiter/
TF Kreisfläche A=πr2A = \pi r^2 6 TeX\TeXercises
  • https://texercises.com/collection/kreisflache/
AG Ausdehnung von Fläche A=πr2A = \pi r^2
=0(1+αΔϑ)\ell = \ell_0 \cdot (1+ \alpha \cdot \Delta\vartheta)
A=A0(1+2αΔϑ)A = A_0 \cdot (1+ 2\alpha \cdot \Delta\vartheta)
6 TeX\TeXercises
  • https://texercises.com/collection/ausdehnung-von-flache/
AG Fluss durch Spule A=πr2A = \pi r^2
B=μ0NIB = \mu_0 \cdot \frac{N}{\ell} \cdot I
Φ=NBAcosθ\Phi = NBA\cdot \cos\theta
6 TeX\TeXercises
  • https://texercises.com/collection/fluss-durch-spule/