To find the X component of electric field differentiate the potential function with respect to X as a partial differentiation and use the value of X as shown below to find the solution
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question 3 plz Question 3 1 pts Consider the electric potential function V = 5.2 +...
The electric potential over a certain region of space is given by V = a x? y – bxz – cy?, where a = 8 V/mº, b = 6 V/m², and c = 3 V/m². Find the electric potential at the point (x, y, z) = (1 m, 6 m, 6 m). Answer in units of V. 008 (part 2 of 4) 10.0 points Find the x-component of the electric field at the same point. Answer in units of V/m....
3. The electric potential of a charge distribution is equal to V(x, y, z) = a + b xy + cz?, where a, b, c are constants. Write down the electric field as a function of the coordinates (x, y, z) (5 pts.)
Question 9 The electric potential at x = 3 m is 160 V, and the electric potential at x = 9m is 106 V. What is the electric field in the x-direction? > Moving to another question will save this response.
Question 2 3 pts Find the electric potential energy, U, of a test charge, 4. = 34.0 pc, placed at point p (at thecenter of the rectangle) as shown below. Take k = 9.0 x 109 Nm2/C2 1.0 UC = 10-6 C. Please round your answer to two decimal places. 9,- -30 uc 9.- -10uc 1.2 m 9--2000 1.6 m 9-40C Equations: First, determine the electric potential at p V, =* +++) 11, 12, 13, 14 are the distances of...
The electric potential at a certain point is given by V(x, y, z)= (-25.2 V/m4)x2y2 + (1.5 V/m6)xy4z - (7.8 V/m4) z3y. Determine the unit vector form, E = [(+/-abc V/m)i + (+/-def V/m)j + (+/-mp.n V/m)k], of the electric field E at the point (-2.3 m, 3.3 m, -1.1 m) to give that potential. Give the x component of electric field in the form x component = "+/-abcd" V/m
Chapter 19 - Electric Potential and Electric Potential Energy 3. Two point charges are of - 7 uC and - 4 uC are held at the corners of a rectangle as shown is The lengths of the sides of rectangle are 0.015 m and 0.05 m. Assume that the electric potential is defined to be zero at infinity. 3a. Determine the electric potential at point A. A) + 6.0 x 104 v B) - 1.14 x 106 V +7 uc...
Variable Potential Part A The potential as a function of position in a region is V(x) = 5x-7x2-x3, with x in meters and V in volts. Find all points on the x-axis (in m) where V-0. Enter your answers below separated by a comma. (You do not need to enter any units.) Submit Answer Incorrect. Tries 2/6 Previous Tries Part B Find an expression for the electric field. Your expression should be in terms of the given variable. D E(x)...
Exercise 23.12 If the electric potential at point A is +30.0 V, what is the electric potential at point B Express your answer with the appropriate units. Constants An object with charge q-6.00109 Cis placed in a region of uniform electric field and is released from rest at point A. After the charge has moved to point B, 0.500 m to the right, it has kinetic energy 3.00 10-7 J VValue Units Submit Reguest Answer Part B What is the...
Question 12 1 pts In a region where the electric field is uniform and points in the +x direction, the electric potential is-2000 V at x = 8 m and is +400 V at x-2 m. what is the magnitude of the electric field? 200 V/m 300 V/m 400 V/m 500 V/m 600 V/m
Question 1 --/1 View Policies Current Attempt in Progress A graph of the x component of the electric field as a function of x in a region of space is shown in the figure. The scale of the vertical axis is set by Exs = 20.0 N/C. The y and z components of the electric field are zero in this region. If the electric potential at the origin is 13 V. (a) what is the electric potential at x =...