ZA Spherical Cap Sphereal surface element ds = R² sono dedo R Fo by 2 3 Ex09 We consider the surface (3), waided with the Positive surface density σ = of Coso Cut on a Sphere with Center O and radius R. by a come with vertex O and half-angle at the vertex. 0 = 1/4 (spherical cap)" a) Calculate the total charge & carved by this surface (3) 6) Determine the electrostatic field vector created no. C) Determine the electrostatic potential V created in O. Fexerted on a point d7 Deduce the force Fexerted 3001 load q = - 350, placed at 0 then its mass Mo so that the latter can remain suspended in equilibrium.

Question
ZA
Spherical
Cap
Sphereal surface element
ds = R² sono dedo
R
Fo
by
2
3
Transcribed Image Text:ZA Spherical Cap Sphereal surface element ds = R² sono dedo R Fo by 2 3
Ex09
We consider the surface (3), waided with the
Positive surface density σ = of Coso
Cut on
a
Sphere with Center O and radius R. by a come
with vertex O and half-angle at the vertex.
0 = 1/4 (spherical cap)"
a) Calculate the total charge & carved by this surface (3)
6) Determine the electrostatic field vector created no.
C) Determine the electrostatic potential V created
in O.
Fexerted on a point
d7 Deduce the force Fexerted
3001
load
q = - 350, placed at 0 then its mass Mo so
that the latter can remain suspended in equilibrium.
Transcribed Image Text:Ex09 We consider the surface (3), waided with the Positive surface density σ = of Coso Cut on a Sphere with Center O and radius R. by a come with vertex O and half-angle at the vertex. 0 = 1/4 (spherical cap)" a) Calculate the total charge & carved by this surface (3) 6) Determine the electrostatic field vector created no. C) Determine the electrostatic potential V created in O. Fexerted on a point d7 Deduce the force Fexerted 3001 load q = - 350, placed at 0 then its mass Mo so that the latter can remain suspended in equilibrium.
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