Flux across concentric spheres Consider the radial fields F = 〈 x , y , z 〉 ( x 2 + y 2 + z 2 ) p / 2 = r | r | p , where p is a real number. Let S consist of the spheres A and B centered at the origin with radii 0 < a < b, respectively. The total outward flux across S consists of the flux out of S across the outer sphere B minus the flux into S across the inner sphere A. a. Find the total flux across S with p = 0. Interpret the result. b. Show that for p = 3 (an inverse square law), the flux across S is independent of a and b.
Flux across concentric spheres Consider the radial fields F = 〈 x , y , z 〉 ( x 2 + y 2 + z 2 ) p / 2 = r | r | p , where p is a real number. Let S consist of the spheres A and B centered at the origin with radii 0 < a < b, respectively. The total outward flux across S consists of the flux out of S across the outer sphere B minus the flux into S across the inner sphere A. a. Find the total flux across S with p = 0. Interpret the result. b. Show that for p = 3 (an inverse square law), the flux across S is independent of a and b.
Solution Summary: The author analyzes the parametric equation of a radial field F=langle x,y,hrangle , based on two spheres A and B centered at the origin
Flux across concentric spheres Consider the radial fields
F
=
〈
x
,
y
,
z
〉
(
x
2
+
y
2
+
z
2
)
p
/
2
=
r
|
r
|
p
, where p is a real number. Let S consist of the spheres A and B centered at the origin with radii 0 < a < b, respectively. The total outward flux across S consists of the flux out of S across the outer sphere B minus the flux into S across the inner sphere A.
a. Find the total flux across S with p = 0. Interpret the result.
b. Show that for p = 3 (an inverse square law), the flux across S is independent of a and b.
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