D4. 1. Given the electric field E-= 8xyza, +4rza,-4x2ya:)V/m.find the differential amount of work...
Given the potential V=x^yz2 [V] find the electric field E at (x 1,y=2,z=1 (i) (ii) calculate the work done in moving a 2 uC charge from A-(1,1,1) to B-(4,-1,1)
The electric field E in a region is uniform and directed in the -x direction as shown by the gray arrow in the diagram below. The magnitude of this field is 318 N/C. The (x, y) coordinates of A, B, and C are as follows: A = (2.2,7.5) m; B = (2.2,-1.2) m; c = (0.5, 0.8) m. (a) what is the work done in moving a positive charge q = 7 nC from B to A? (b) What is the work...
1. A particle with a charge of +4.20 nC is in a uniform electric field E⃗ directed to the negative x direction. It is released from rest, and after it has moved 6.00 cm , its kinetic energy is found to be 1.50×10−6 J . a. What work was done by the electric force? b. What was the change in electric potential over the distance that the charge moved? c. What is the magnitude of E? d. What was the change...
The electric field intensity in free space is given by E=2xyz ax + 3xz ay + 4xy az V/m Calculate the amount of work necessary to move a 4 µC charge from (3, 1, -1) to (4, 3, -1) [distances in meters].
the electric field is given bt the equation E=2axi+Aj where A=1*10^4 V/m^2 how much work does the electric field do when a charge of 2μC is taken from point (0,0) to along the x(1,0) then parallel to the yaxis (1m,2m)? how much electrical work is done when the charge is moved along a straight line from (0,0) to (1,2m)? what is the equation for the electric potential of this field assuming the origin has a potential of zero? what is...
Q5. A uniform electric field of magnitude E 360 V/m is directed in the positive X direction. A proton moves from the origin to the point (x, y)-(30.0 cm, 40.0 cm). (a) Through what potential difference does the charge move? Show your work to score. (b) What is the change in the potential energy of the charge field system? Show your work to score. (c) In this uniform electric field E mentioned above, if an electron was released at rest...
Please show your work in details, write formulas clearly, and plug in values properly. 20. A cube of edge L = 10 cm has charge inside it & is located as shown in figure. The electric field given by: Ans: 26.6 nC E = (2 + 302x105 k N/C Calculate the amount ofcharge inside the cube. AZ
Please explain part b. Question 2 [10 marks]: A certain distribution of charges produces the electric field 6y 6z (a) Find the corresponding electric potential, V (b) Find the work done in moving a charge Q 3 nC from point A(0, 2, 2) to point B(2, 0,2) along 2. the shorter arc of the circle x2 + y2-4, Question 2 [10 marks]: A certain distribution of charges produces the electric field 6y 6z (a) Find the corresponding electric potential, V...
The magnitude of the net electric field at a distance x from the center and on the axis of a uniformly charged ring of radius r and total charge q is given by Enct radlus 12.0 cm separated by a distance d-22.8 cm as shown In the dlagram below. The charge per unit length on ring A Is-5.20 nC/cm, whlle that on ring 8 Is +5.20 nC/cm, and the centers of the two rings lle ,23/2 Consider two identical rings...
QUESTION 1 In each of the drawings below a small electric charge is being moved within an electric field. In each drawing E (the electric field) is the same, the charge that is being moved is the same, and the distance d that the charge is being moved is the same. Rank the three drawings in order from the most work done by E on the charge to the least work done by E on the charge. Most work done...