The electric flux through each of the six sides of a rectangular box are as follows: Φ1 = 132.6 N⋅m2/C , Φ2 = 260.9 N⋅m2/C , Φ3 = -345.5 N⋅m2/C , Φ4 = 164.3 N⋅m2/C , Φ5 = -117.8 N⋅m2/C , Φ6 = 443.7 N⋅m2/C .
How much charge is in this box? (in pC)
The electric flux through each of the six sides of a rectangular box are as follows:...
A charge Q is located inside a rectangular box. The electric flux through each of the six surfaces of the box is: Ф1 = +4340 Nm2/C, Ф2 = +4200 Nm2/C, Φ3 Nm2/C, Φ4 =-3280 Nm2/C, Φ5 =-4020 Nm2/C, and Φ6 =-5620 Nm2/C. what is Q? +5360 Number Units
A charge Q is located inside a rectangular box. The electric flux through each of the six surfaces of the box is: ?1 = +1380 N
The net electric flux through a cubic box with sides that are 25.0 cm long is 4.70×103 N⋅m2/C . What charge ? is enclosed by the box?
The net electric flux through a cubic box with sides that are 25.0 cm long is 4850 N. m2/C, what charge Q is enclosed by the box?
The net electric flux through a cubic box with sides that are 15.0 cm long is 5.00×103 N⋅m2/C . What charge ? is enclosed by the box?
The net electric flux through a cubic box with sides that are 25.0 cm25.0 cm long is 5.00×103 N⋅m2/C5.00×103 N⋅m2/C . What charge ?Q is enclosed by the box?
The electric charges, Q1=3 C, Q2=2 C, and O3=-10 C, are presented in the figure, in addition to 5 surfaces, S1 through S5.Part (a) Write an expression for the electric flux Φ1 through S 1. Part (b) Write an expression for the electric flux Φ2 through S2. Part (c) Write an expression for the electric flux Φ3 through S3 Part (d) Determine the electric flux Φ4 through S4 Part (e) Write an expression for the electric flux Φ5. through S5
The figure below represents the top view of a cubic surface in a uniform electric field oriented parallel to the top and bottom faces of the cube. The field makes an angle θ=40o with side and the area of each face is A . a) Draw an area vector A for each face, , , , b) Label the angle between the area vector A and the electric field vector E for each face. c) Find flux through each face....
The net electric flux through a cubic box with sides that are 17.0 cm long is 4750 N?m2/C . What charge Q is enclosed by the box?
Two hemispherical surfaces, 1 and 2, of respective radii r1 and r2, are centered at a point charge and are facing each other so that their edges define an annular ring (surface 3), as shown. The field at position r⃗ due to the point charge is: E⃗ (r⃗ )=Cr2r^ where C is a constant proportional to the charge, r=∣∣r⃗ ∣∣, and r^=r⃗ /r is the unit vector in the radial direction. a- What is the electric flux Φ3 through the annular...