1)
2)
a) 6.64x10-10 C/m2
b) 0
c) -1.18x10-13 C/m2
d) 1.18x10-13 C/m2
e) -6.64x10-10 C/m2
3)
1) 2) a) 6.64x10-10 C/m2 b) 0 c) -1.18x10-13 C/m2 d) 1.18x10-13 C/m2 e) -6.64x10-10 C/m2...
1) 2) 3) The figure shows three particles with charges Q1 and Q2 with the electric field lines shown. What is the ratio of Q1/Q2? O 1:4 O 1:1 08:4 2:4 04:1 Given the field map to the right, the dashed box contains all the charge generating the field. Is the long range field that of a monopole or a dipole? Monopole O Dipole Both a monopole and a dipole Select the inequality for the potential at the points A,...
Tricky Select the inequality for the potential at the points A, B, C, and D based on the electric field map. А D o VC> VB> VA> VD O VA> VC> VB> VD o VB> VA> VD> VC o VD> VA> VB> VC O VA=VBEVC=VD
1) A system with a point charge at the origin with charge +Q is surrounded by a spherical dielectric shell with dielectric constant κ= 2.0. Select the figure below that correctly represents the electric field map for the system. a) Figure a b) Figure b c) Figure c 2) a 6.64x10-10 C/m2 b 0 c -1.18x10-13 C/m2 d 1.18x10-13 C/m2 e -6.64x10-10 C/m2 Figure (a) Figure (b) + Dielectric Dielectric Figure (C) Dielectric The electric field is drawn to the...
Select the inequality for the potential at the points A, B, C, and D based on the electric field map. A D В. С Vo> V=> VA> VD VA> Vo> Ve> VD Vs> VA> Vo> Vo Vo> VA> VB> Vc VA=Ve=Vc=VD
4) An electric dipole (q=3.2x10-19C and d=4.00x106m) is placed a distance b=1.00 cm from a large sheet of charge (o=+3.00x10-9C/m2) as shown large sheet (1 to page) + a) Find the E-field created by the large sheet. + + b + b) Draw some E-field lines near the dipole + c) What is the initial potential energy of the dipole? d) Draw the individual charges of the dipole and use it to explain if the the dipole turn clockwise or...
Problem 1 An electron moves in a uniform electric field, E 2 x 10° N/C from point A to point B. The distance between points A and B is 0.75m. The direction of the electric field is from point B to point A. (i) Determine the force on the electron. (ii) Determine the work done by the electric field. (i) Determine the potential difference Va - VB
1. Calculate the voltages at points A, B, C, D & E based on the given circuit. Show complete calculation steps and include correct units with each answer. B 3 ΚΩ IX V с - 5 ΚΩ w IK2 D E VA= VB = Ve= Vp = Ve= 2. Plot the electric potentials graph versus positions based on the above circuit following the path (ABCDEA). Position A B C D E
Can someone carefully explain and answer questions A, B, C, D and E in detail, please!!! Score Name Student ID last first [25 points total] Tutorial question IV An electrically neutral cylinder is made out of a polarizable material. The cylinder is placed in a region of strong electric field that points upward A. [4 pts] Sketch bound charges on the diagram at right. Briefly explain your reasoning B. [6 pts] In what direction is the dipole moment of the...
1,(Z) = { a bla, b, c, d. Let M2(Z) = a, b, c, d e Z} with matrix addition and multiplication. Which of the following is true: it is a commutative ring with unity it is a ring with unity but not commutative it is a ring without unity and not commutative it is a commutative ring without unity Question 4 Which of the following statement is true about the ring of integers (with usual addition and multiplication) the...
11. Electric field (E) at the surface of a conductor is (b) 2o/ (c)の200 (d) None Electric potential (V) varies the distance (r)as 12. (c) 2r (d) None 13. The electric potential energy (U) for two point charges q and qoat a separation 'r' is (b) 4째 (qquw) c) (1/4n(qa) (d) None 14. Electric potential difference between two potential points (V-V) is e)E cose dl (h) None 15. 2 X electron volt (eV) is measured as (a) 4.8 x 1019J...