8.- Three uniformly charged infinite sheets are located as follows: in y = 5. Ps=-64 in y=-3. Ps= 76c Find E at point PA (3,5,- 6) m² in y=2, Ps= 25c m²
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- 3. Two-point particles with charges q, -4.5 x 10$C and q 8.5 x 10-C have a potential energy of 40.0 J. Calculate %3D the distance between the charges [3A,1C]C Home Americ Mal-Blectric Ch 22 OxPad A gmail ho sue a place s Solved N. SOLVE a directid a directic + O File C/Users/Hp/Downloads/Ch%2021 The%20Electric%20Field-1%20(6).pdf Draw Read aloud CHAPTER 21 Example 21-8 A point charge q, لة Summarize 21-4: The Electric Field Electric Field Due to Point Charges on the xAxis +8.0 nC is at the origin and a second point charge q₂ = +12.0 nC is on the x axis at x = 4.0 m. Find the electric field on the y axis at y = 3.0 m. ☆ 印 A G Edit with Acro IZVZJHS, Type here to search E hp -12C 83°F Sunny A & C ENG 2:56 PM 3/29/2024 12 Scroll P こ it L D 2 # 3 9 5 6 7 $3 163 +3 ض W- R TY 9 DI FJ GY H . D 9 K.J O € ت 9 V} x BY N M.B لا 95 insert backspace enter ↑ shift5. Assume two infinite uniform sheets of charge in free space as follows: 2 nC/m at : = 4, and -6 nC/m at z 1. Find E at the point P(-7, -3.5, 2).
- set (-) 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 figure4) 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)4. Two point charges of -30nC and 10nC are located at (3,-2,4) and (0,1,5) above the conducting ground plane z=3. a) Draw the charge equivalent diagram for this problem, b) Find E at (3,4,7) and c) E at (3,8,2)