Three Concentric with redius and charge density follows cylinderical shells as charge dens sty 20 MC/m² - 10 Mc /m2 5 Mc/m² radins inner shell 5 m middle shell outer shell 13 m Find D and 2 in all regions using Gauss law - The three shells midd le outer shell are uni formly charged. inner
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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…There are 3 thin conductive infinitly thin spherical shells with a charge on each shell of +2Q. The innermost shell has a radius of R. Another of the shells has a radius of 2R. The outermost shell has a radius of 3R. Draw a graph of E vs R. Make sure to show the values of E(3R), E(2R), and E(R). Note: (put R on the x axis)The smiling face in the figure below consists of three items: 1. A thin rod of charge -5 μC that forms a full circle of radius 10 cm. 2. A second thin rod of charge 4 μC that forms a circular arc of radius 8 cm. Subtending and angle of 90° about the center of the full circle. 3. An electric dipole with a dipole moment that is perpendicular to a radial line and has magnitude p = 4.3 × 10-21 C.m. Reminder: The electric dipole consists of two charged particles of magnitude but of opposite sign, separated by a distance d. The dipole moment is defined as p = qd. What is the net electric potential at the center? -336x
- What is the force ?⃗ on the -10 [nC] charge? Give your answer as a magnitude and an angle measured from the +x axisset (-) charge Challenge Problem Due 2) Find the frequency of large osallations for a small hole a charge moving through in the middle of an insulating sphere of total charge Q and radius R. Neglect gravity effecty Ahole pus HIGHLIGHTER Q=10-³ 9= -1.6(10-19) GUARD с 25 12 NAME b) how does the frequency change of the hole does not go through the center of the insulating sphere? R = 100m LAB c) Be sure to use Gauss Law to expression. denve E field luchadle a grossian surface and a figureQUESTION 19 The initially-neutral, conducting, solid object diagrammed below contains two inner cavities. A point charge, +7Q is then placed in one of the cavities while a point charge of -3Q is placed in the other cavity. (Q > 0) What resultant charge resides on the outer surface of the conductor after the conductor is allowed to reach electrostatic equilibrium? +7Q -3Q а. +4Q b. -3Q Ос. -4 d. +7Q е. -3Q
- 10please type out your solution so that it is easy to read I have bad eyesight and cant read handriting wellConsider the point charges arranged at the corners and at the center of a square, as depicted in the figure. O qa qc Oa qb O qd = Find the magnitude of the net Coulomb force, in newtons, on the charge q in the figure, given that q = 1.2 μC, 9a = 2.6 µC, qb= -3.6 µC, qc = -5.1 µC, and qd 0.65 µC. The square is 43 cm on a side. |F|=||
- 4) Just as in problem 3 above, a neutral molecule has a dipole moment of 5 Debyes (1.6E-29 Cm) pointing in the x direction. It can be modeled as two charges +e and -e separated from one another by 1E-10 meters (1 angstrom), straddling the origin along the x axis, at x=0. An electron is located on the y axis at y=10 angstroms. What is the force (both magnitude and direction) on the electron by the dipole? ie (o, 10Å) --> X e cx=0.5Å,yr0)19.) see photo