Assignment 6 Electricity Your work must be clear to read. Clearly label all cases (a, b). Show all steps in GRASS format. GRASS means given/required/analysis/solution/statement. You can type your solutions and answers, but neat handwriting is perfectly acceptable. Please submit your assignment as ONE PDF file on D2L. I do not accept any assignments via email after the due date. Problem: Charged spheres are fixed in position, as shown. 0.30 m 0.20 m 9₁ = + 3.0x10 *C a) Find the electrostatic force between charges q, and q₂. b) Find the electric field strength at M. 9₂ = -4.0×10 C /17 M c) Find the voltage at M. d) Find the potential energy stored between two point charges of magnitude q, and q₂. e) How much work must be done to increase the distance between charges q, and q, from 30 cm up to 70 cm?

Part A An electric dipoke is mado of two charges of equal magnitudes and opposite signs, The positive charge, q 20 Cs locatod at the pont yz 80 cm 0 cm, O cm), whie the negative charge is located at the pont (xyz(80 cm 0 cm, 0 cm) How much work will be done by an electric feld E(8 Ov10 N/C)j to rotate the dpole by 60 Hint jis the unit vector along the y axis (same as ) O 222J O 03J O 223 O 53J Submit Request Answer

A uniform electric field of magnitude 7.8x105 N/C points in the positive z direction. Part A Find the change in electric potential energy of a 8.0-μC charge as it moves from the origin to the point (0, 6.0 m). Express your answer using one significant figure. IVE] ΑΣΦ AU = Submit Part B AU = Find the change in electric potential energy of a 8.0-μC charge as it moves from the origin to the point (6.0 m, 0). Express your answer using two significant figures. IVE] ΑΣΦ Submit Part C Request Answer AU = Submit Request Answer w ? Find the change in electric potential energy of a 8.0-μC charge as it moves from the origin to the point (6.0 m, 6.0 m). Express your answer using two significant figures. [5] ΑΣΦ Request Answer ? w ? J J J

Answer the given problems below. Show your solution and write the answers in your answer sheets. 1. Find the potential at a distance of 0.07 m from a -6 nC charge. 2. What would be the PE of a -5 nC charge placed at this point? 3. What is the electric field strength at a point 40 cm from a charge of 5x10 C? Solve the given problem below. Show your solution and write the answers in your answer sheets, 1. A Van de Graaff generator has a 0.20 m diameter metal sphere that produces a voltage of 200 kV near its surface. What excess charge resides on the sphere?

2nd Like charge - latoyajohnson663@ Part A PE= Value Submit μA y pearson login - Yahoo Search Result.... How much energy is stored by the electric field between two square plates, 9.1 cm on a side, separated by a 2.1-mm air gap? The charges on the plates are equal and opposite and of magnitude 14 nC. Express your answer using two significant figures and include the appropriate units. Provide Feedback C Units Previous Answers Request Answer X Incorrect; Try Again; 3 attempts remaining P Pearson Course Home Copyright © 2022 Pearson Education Inc. All rights reserved. Terms of Use | Privacy Policy | Permissions MacBook Air A ALEKS-Latoya Johnson- Timed C Review I Constants Contact Us Next >>

A uniform electric field of magnitude 9.8x105 N/C points in the positive a direction. Find the change in electric potential energy of a 9.5-μC charge as it moves from the origin to the point (6.0 m, 0). Express your answer using two significant figures. AU = -56 J Submit Correct Important: If you use this answer in later parts, use the full unrounded value in your calculations. Part C Previous Answers Find the change in electric potential energy of a 9.5-μC charge as it moves from the origin to the point (6.0 m, 6.0 m). Express your answer using two significant figures. VG ΑΣΦ AU = Submit Request Answer ? J

Quiz n Finish a Two charges Q1 = 8.6µC and Q2 5.1µC are placed on the two corners of a rectangle with the 14.8mm as shown in the figure below. How much work is required to bring 7.5mm away from Q, ? sides a = 7.2mm and b %3D HUR a thir charge Q3 = 7.5µC from infinity to point P that is a distance c= Please take k 9.0 x 10°N. m2/C? and express your answer using one decimal place in units of J or N.m. Q1 »P C a Q2 b.

Image shows two plates with opposite charges. η represents the surface charge densities which are equal and opposite and seperated by a distance of d. Electron is launched from the positive plate with initial speed, v0, heading towards the negative plate. The electron stops just short of the negative plate. It then starts accelerating back to the positive plate. Calculate what η would be. Please show ALL work and make it detailed and neat.

A +95uC point charge moves from point A to point B. That magnitude of the electric field is 50 x 10^3 N/C. Points A and B are 35mm and 5mm from the negatively charged plate, respectively. How much work was done to move the charge from point A to point B? A. 14.25 J B. 0.1425 J C. 142.5 J D. 1.43 kJ Show your solution

Please help me with the following question and make sure it's correct. Picture of the diagram included. explain pls, thanks Q: In (Figure 1), each capacitor has C� = 4.00 μF�F and Vab=23.0�ab=23.0 VV. Part A.  Calculate the charge on C1. Express your answer with the appropriate units. Part B.  Calculate the charge on C2. Express your answer with the appropriate units.   Part C.  Calculate the charge on C3. Express your answer with the appropriate units.   Part D. Calculate the charge on C4. Express your answer with the appropriate units. Part E.  Calculate the potential difference across C1. Express your answer with the appropriate units.   Part F.  Calculate the potential difference across C2. Express your answer with the appropriate units.   Part G. ' Calculate the potential difference across C3. Express your answer with the appropriate units.   Part H.  Calculate the potential difference across C4. Express your answer with the appropriate units.