A right triangular wedge is placed on the ground in a charge-free region of space, and in the presence of a uniform downward electric field with magnitude E = 16 N/C, as pictured below. The wedge has a horizontal rectangular base with a width w = 0.5 m and length %3D l = 1.2 m. (a) What must the next electric flux through the wedge be, and why? (b) What is the electric flux through each face of the wedge?
A right triangular wedge is placed on the ground in a charge-free region of space, and in the presence of a uniform downward electric field with magnitude E = 16 N/C, as pictured below. The wedge has a horizontal rectangular base with a width w = 0.5 m and length %3D l = 1.2 m. (a) What must the next electric flux through the wedge be, and why? (b) What is the electric flux through each face of the wedge?
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Transcribed Image Text:Problem 2
A right triangular wedge is placed on the ground in a charge-free region of space, and in
the presence of a uniform downward electric field with magnitude E = 16 N/C, as pictured
below. The wedge has a horizontal rectangular base with a width w = 0.5 m and length
l = 1.2 m.
(a) What must the next electric flux through the wedge be, and why?
(b) What is the electric flux through each face of the wedge?
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