A uniform electric field of magnitude 5.8×10²N/C passes through a circle of radius 13 cm. Calculate the electric flux that goes through the circle when the circle's plane is: - (i) perpendicular to the field lines. (ii) at 45° to the field lines.
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- (10% ) Problem 7: An infinite conducting cylindrical shell of outer radius ri-0.10 m and inner radius r2 0.08 m initially carries a surface charge density 0.15 μC/m2 A thin wire with linear charge density 1.3 μC m s nserted along the shells' axis. The shell and the wire do not touch and these is no charge exchanged between them Banchi, Stephen - banchis3@students.rowan.edu @ theexpertta.com - tracking id: 2N74-2F-82-4A-BAAB-13083. In accordance with Expert TA's Terms of Service. copying this information to any solutions sharing website is strictly forbidden. Doing so may result in termination of your Expert TA Account. -a33% Part (a) What is the new surface charge density, in microcoulombs per square meter, on the inner surface of the cylindrical shell? -là 33% Part (b) What is the new surface charge density, in microcoulombs per square meter, on the outer surface of the cylindrical shell? 33% Part (c) Enter an expression for the magnitude of the electric field outside the cylinder (r…3) The electric flux density D inside a dielectric sphere of radius a centered at the origin is given by D = Rp,R [/m²] where po is a constant. Find the total charge inside the sphere.A solid conducting sphere of radius 2.00 cm has a charge of 7.55 µC. A conducting spherical shell of inner radius 4.00 cm and outer radius 5.00 cm is concentric with the solid sphere and has a charge of -3.45 µC. Find the electric field at the following radii from the center of this charge configuration. (a) r = 1.00 cm magnitude N/C direction ---Select--- (b) r = 3.00 cm magnitude N/C direction ---Select--- (c) r = 4.50 cm magnitude N/C direction ---Select--- (d) r = 7.00 cm magnitude N/C direction ---Select---