ibuted mag- quired lenoid 9.00 T 29. A solenoid of radius = 1.25 cm and length = 30.0 cm has V300 turns and carries 12.0 A. (a) Calculate the flux through the surface of a disk-shaped area of radius R = 5.00 cm that is positioned perpendicular to and centered on the axis of the solenoid as shown in Figure P29.29a. (b) Figure P29.29b shows an enlarged end view of the same solenoid. Calculate the flux through the tan area, which is an annulus with an inner radius of a = 0.400 cm and an outer radius of b= 0.800 cm. nd the enoids a sole- y and nental enoid. inside your liame- R a Figure P29.29 b
ibuted mag- quired lenoid 9.00 T 29. A solenoid of radius = 1.25 cm and length = 30.0 cm has V300 turns and carries 12.0 A. (a) Calculate the flux through the surface of a disk-shaped area of radius R = 5.00 cm that is positioned perpendicular to and centered on the axis of the solenoid as shown in Figure P29.29a. (b) Figure P29.29b shows an enlarged end view of the same solenoid. Calculate the flux through the tan area, which is an annulus with an inner radius of a = 0.400 cm and an outer radius of b= 0.800 cm. nd the enoids a sole- y and nental enoid. inside your liame- R a Figure P29.29 b
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Transcribed Image Text:ibuted
mag-
quired
lenoid
9.00 T
29. A solenoid of radius = 1.25 cm and length = 30.0 cm has
V300 turns and carries 12.0 A. (a) Calculate the flux through
the surface of a disk-shaped area of radius R = 5.00 cm that
is positioned perpendicular to and centered on the axis of
the solenoid as shown in Figure P29.29a. (b) Figure P29.29b
shows an enlarged end view of the same solenoid. Calculate
the flux through the tan area, which is an annulus with
an inner radius of a = 0.400 cm and an outer radius of
b= 0.800 cm.
nd the
enoids
a sole-
y and
nental
enoid.
inside
your
liame-
R
a
Figure P29.29
b
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