What is the net electric flux through the closed cylindrical surface(of Radius=R) shown And What is the net charge insidethis cylindrical surface? Given that E=80 N/C and R=0.2 m.2RSelect one:O a. 10 Nm^2/C, 9*10^(-11) CO b. 50.3 Nm^2/C, 4.4*10^(-10) CO c. 100.5 Nm^2/C, 8.9*10^(-10) CO d. 20.1 Nm^2/C, 1.78*10^(-10) CO e, net flux is zero and net charge is zero Two small beads having positive charges are fixed at the opposite ends of a horizontal insulating rod of length d= 2 m.The charge of q1 = q. The bead with charge q1 is at the origin. As shown in the figure, another third small, positivelycharged bead (q3) is in equilibrium at distance x= 0.4 m. What is the charge of q2?%3D%3D9193q2Select one:a. 2qO b. 8qC. 16qd. q/5e. q/3

Electric flux is nothing but the dot product of electric field and area vector.

Answered: What is the net electric flux through…

What is the net electric flux through the closed cylindrical surface(of Radius3R) shown And What is the net charge inside this cylindrical surface? Given that E=80 N/C and R=0.2 m.

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Question

What is the net electric flux through the closed cylindrical surface(of Radius=R) shown And What is the net charge inside
this cylindrical surface? Given that E=80 N/C and R=0.2 m.
2R
Select one:
O a. 10 Nm^2/C, 9*10^(-11) C
O b. 50.3 Nm^2/C, 4.4*10^(-10) C
O c. 100.5 Nm^2/C, 8.9*10^(-10) C
O d. 20.1 Nm^2/C, 1.78*10^(-10) C
O e, net flux is zero and net charge is zero

Two small beads having positive charges are fixed at the opposite ends of a horizontal insulating rod of length d= 2 m.
The charge of q1 = q. The bead with charge q1 is at the origin. As shown in the figure, another third small, positively
charged bead (q3) is in equilibrium at distance x= 0.4 m. What is the charge of q2?
%3D
%3D
91
93
q2
Select one:
a. 2q
O b. 8q
C. 16q
d. q/5
e. q/3

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