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Showing results 1-11 of 11 on page 1 of 1.
Title
(created
)
Formula
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
Exercises
#
Owner
Attributes
Action
AG
Wärmeleitung und Kreisfläche
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
Φ
=
λ
T
1
−
T
2
d
A
\Phi = \lambda \dfrac{T_1-T_2}{d}A
Φ
=
λ
d
T
1
−
T
2
A
View Exercises
3
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/warmeleitung-und-kreisflache/
AG
Elektrisches Feld und Kraft Plattenkondensator
E
=
Q
ε
A
E = \frac{Q}{\varepsilon A}
E
=
ε
A
Q
F
=
q
E
⃗
F = q \vec E
F
=
q
E
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
View Exercises
1
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/elektrisches-feld-und-kraft-plattenkondensator/
AG
Weinfass
p
=
F
A
p = \dfrac{F}{A}
p
=
A
F
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
p
=
ϱ
g
h
p = \varrho g h
p
=
ϱ
g
h
View Exercises
5
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/weinfass/
AG
Widerstand Leiter und Kreisfläche
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
R
=
ϱ
ℓ
A
R = \varrho \dfrac{\ell}{A}
R
=
ϱ
A
ℓ
View Exercises
8
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/widerstand-leiter-und-kreisflache/
AG
Druck Gewichtskraft Fläche
p
=
F
A
p = \dfrac{F}{A}
p
=
A
F
F
=
m
g
F = mg
F
=
m
g
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
A
=
s
2
A = s^2
A
=
s
2
A
=
a
b
A = ab
A
=
ab
View Exercises
3
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/druck-gewichtskraft-flache/
AG
Magnetischer Fluss und Kreisfläche
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
Φ
=
N
B
A
⋅
cos
θ
\Phi = NBA\cdot \cos\theta
Φ
=
NB
A
⋅
cos
θ
View Exercises
6
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/magnetischer-fluss-und-kreisflache/
AG
Druck auf Kreisfläche
p
=
F
A
p = \dfrac{F}{A}
p
=
A
F
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
View Exercises
13
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/druck-auf-kreisflache/
AG
Masse von elektrischem Leiter
ϱ
=
m
V
\varrho = \dfrac{m}{V}
ϱ
=
V
m
F
=
m
g
F = mg
F
=
m
g
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
R
=
ϱ
ℓ
A
R = \varrho \dfrac{\ell}{A}
R
=
ϱ
A
ℓ
View Exercises
4
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/masse-von-elektrischem-leiter/
TF
Kreisfläche
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
View Exercises
6
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/kreisflache/
AG
Ausdehnung von Fläche
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
ℓ
=
ℓ
0
⋅
(
1
+
α
⋅
Δ
ϑ
)
\ell = \ell_0 \cdot (1+ \alpha \cdot \Delta\vartheta)
ℓ
=
ℓ
0
⋅
(
1
+
α
⋅
Δ
ϑ
)
A
=
A
0
⋅
(
1
+
2
α
⋅
Δ
ϑ
)
A = A_0 \cdot (1+ 2\alpha \cdot \Delta\vartheta)
A
=
A
0
⋅
(
1
+
2
α
⋅
Δ
ϑ
)
View Exercises
6
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/ausdehnung-von-flache/
AG
Fluss durch Spule
A
=
π
r
2
A = \pi r^2
A
=
π
r
2
B
=
μ
0
⋅
N
ℓ
⋅
I
B = \mu_0 \cdot \frac{N}{\ell} \cdot I
B
=
μ
0
⋅
ℓ
N
⋅
I
Φ
=
N
B
A
⋅
cos
θ
\Phi = NBA\cdot \cos\theta
Φ
=
NB
A
⋅
cos
θ
View Exercises
6
TeX
\TeX
T
E
X
ercises
https://texercises.com/collection/fluss-durch-spule/