A very long aluminum cylinder with radius R has charge per unit length 2. A point which is located at a distance of 2R from the axis of the cylinder is designated as the zero of electric potential. Part (h) Select all statements that accurately describe lines of electric field in the vicinity of cylinder. 0 Lines of electric field have the greatest density outside of but far from the cylinder. O Lines of electric field extend along radial lines between the symmetry axis of the cylinder and infinity. Lines of electric field have the greatest density in the interior of cylinder. O Lines of electric field extend along radial lines between the surface of the cylinder and infinity. 0 0 O Lines of electric field form circles around the symmetry axis of the cylinder. Lines of electric field are parallel to the symmetry axis of the cylinder. Lines of electric field have the greatest density outside of but near to the cylinder. Part (g) Select all statements that accurately describe equipotentials in the vicinity of the cylinder. 0 The entire volume that is external to the cylinder is an equipotential. O Radial lines extending outward from the symmetry axis are equipotentials. O The entire volume that is the interior of the cylinder is an equipotential. 0 Planes that contain the symmetry axis are equipotentials. 0 Planes that are perpendicular to the symmetry axis are equipotentials. OCylindrical surfaces that are concentric with the symmetry axis are equipotentials. A

solve parts g and h

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A very long aluminum cylinder with radius R has charge per unit length 2. A point which is located at a distance of 2R from the axis of the cylinder is designated as the zero of electric potential. > Part (h) Select all statements that accurately describe lines of electric field in the vicinity of cylinder. Lines of electric field have the greatest density outside of but far from the cylinder. O Lines of electric field extend along radial lines between the symmetry axis of the cylinder and infinity. Lines of electric field have the greatest density in the interior of cylinder. O Lines of electric field extend along radial lines between the surface of the cylinder and infinity. O Lines of electric field form circles around the symmetry axis of the cylinder. 0 Lines of electric field are parallel to the symmetry axis of the cylinder. O Lines of electric field have the greatest density outside of but near to the cylinder. Part (g) Select all statements that accurately describe equipotentials in the vicinity of the cylinder. The entire volume that is external to the cylinder is an equipotential. Radial lines extending outward from the symmetry axis are equipotentials. The entire volume that is the interior of the cylinder is an equipotential. Planes that contain the symmetry axis are equipotentials. Planes that are perpendicular to the symmetry axis are equipotentials. Cylindrical surfaces that are concentric with the symmetry axis are equipotentials. 000000 A