oo Home 6:14 PM WEEK 2, QUESTION 3 Correct expression for the magnitude of x -component...
Which of the following is true about the electric field from infinitely long, charged wire: a) The vectors of the net electric field are perpendicular to the wire. b) The net electric field is constant at any distance from the wire. c) The vectors if the net electric field are parallel to the wire. d) The net electric field is the largest at the center of the wire. We were unable to transcribe this imageCorrect expression for the magnitude of...
6:14 PM Tue Jul 14 3 78% Document (71) 1 Home Insert Draw Layout Review View Calibri Regular (B 11 B I U A. 'L Q1. (40 points) One rod and one disk are placed as shown. Point A is at 30 cm from the center of the rod. The distance from A to the disk is 20 cm. The rod is 20 cm long with uniform charge density 2 = +60°C/m. The disk has uniform charge density of a...
question 2 added for reference; this is about question 3 2. Dipole-dipole force The charge distribution where two equal but opposite charges are separated by a fixed distance δ is called a dipole and is very common and important in nature Consider two dipoles, each consisting of charges tq separated by a distance 6. The axes of two dipoles are parallel and their midpoints are separated by a distance r. One is inverted compared to the other. See the figure....
Need by 12 pm July 30, 2020 with answers shown and explanation. Thank you. R 1) Two resistors are connected to each other in parallel, one resistor has a known value of R, the resistance of the second one is unknown. If the equivalent of two resistors in parallel is equal to what is the resistance of the second one? A) R B) 2R E) 4R 2) Which one of the following sentences is correct about the velocity selector? A)...
Show step by step please solve Q 13 and 14 Question 11, chap 123, sect 12. part 3 of 4 10 points Find the magnitude of the electric field on 7. Epl the axis of the ring at 32 cm from the center of the ring. Answer in units of N/C. Question 12, chap 123, sect 12 part 4 of 4 10 points Question 14, chap 124, sect 6 part 2 of 2 10 points Find the magnitude of the...
1 question 5 parts - 150 m/s 2.656 x 10-25 kg -1.28 x 10-18 C 1 0.7 m | 17 A y 021 (part 1 of 5) 10.0 points A long, straight wire is in the plane of the page and carries a current of 17 A. Point P is also in the plane of the page and is a perpendicular distance 0.7 m from the wire, as shown below. P z is upward from the paper With reference to...
6 -1 -4 -6 .4 -6-5-4 -3 -2-1 0 1 2 3 4 5 6 x (m) entify vectors P and Q in the figure. e abel of vector P on the figure is .. he label of vector Q on the figure is A:11 Bİ 21 C:31 D: 41 Submit Answer Tries 0/20 Let M - (P+). Calculate the magnitude of the vector M. (in m) A: 4.31B: 4.87C: 5.51D: 6.22 E: 7.03 F: 7.95 G: 8.98H: Submit Answer...
1. A positive ion of charge 1 uC with a weight of 2 x 10-6 kg is released from the positive plate of a capacitor. When it reaches the negative plate, it has achieved a velocity of v = 100 m/s. Calculate the following: (6 marks total) a. What is the potential difference between the two plates? (2 marks) b. If the distance between the two plates is 1 nm and filled with vacuum, and the dimensions of the plates...
Solve problem 2 and 3 with details . Thank you Notre Dame University-Louaize Faculty of Natural& Applied Sciences Department of Physics& Astronomy PHS 212-Electridity & Magnetism Fall 2018 Final Exam (22Dec18, 120min) Closed-book, Closed-notes, Close-everything Exam List in detail any assumptions that you make. Show all your work. You can use a calcalater Useful Constants: e1.6x 10C, charge of 1 electron k-8.9875x10 Nm/C2 mass of 1 electron: 9.11 x 10 kg 1. Three point charges, q +15 C, q +35...
Consider a cylindrical capacitor like that shown in Fig. 24.6. Let d = rb − ra be the spacing between the inner and outer conductors. (a) Let the radii of the two conductors be only slightly different, so that d << ra. Show that the result derived in Example 24.4 (Section 24.1) for the capacitance of a cylindrical capacitor then reduces to Eq. (24.2), the equation for the capacitance of a parallel-plate capacitor, with A being the surface area of...