A +8.00 μC charge is situated along the +y-axis aty-0400 m. What is the electric potential...
A charge +2 μC is at the origin. A charge -4 μC is at x = 2.0 m on the +x axis.(a) What is the value of the electric field at x = -4.828 m?(b) What is the value of the electric field at x = -2 m?(C) What is the value of the electric potential at x = -2 m?
A +4.00 μC point charge and -6.00 μC point charge are placed along the x-axis at x = 0.000 cm and x = 40.0 cm, respectively. Where must a third charge, q, be placed along the x-axis so that it does not experience any net electric force due to the other two charges? A) -1.78 m B) 1.78 m C) 0.180 m D) -0.200 m E) -0.180 m
Two charges (dipole) of +q = +6.00 μC and −q = −6.00 μC along the y-axis, separated by 3.00 m, as shown in the figure below. Point P is located 4.00 m directly to the right of the positive charge, as shown. The origin is located halfway between the charges. (a) At point P (test point), sketch and label the electric field E+ due to the positive charge +q, and the electric field E - due to the negative charge...
a)A point charge of +3.0 C is situated at the origin of a set of coordinates and a point charge of +6.0 C is situated at coordinates (3.0 m, 4.0 m). Calculate the change in the electrostatic potential energy of the system if the second charge is moved from its initial position to coordinates (3.0 m, 0.0 m). Assume the charges are in a vacuum. b)ln a certain region of space, there is a uniform electric field of magnitude 10.0 V...
A point charge of +18 μC is on the y axis at y = +3.00 m. A point charge of -12 μC is at the origin. A point charge of +45 μC is on the x axis at x = +3.00 m. a. Determine the magnitude of the net electrostatic force on the charge at x = +3.00 m. F = ________ N b. Find the direction of the force relative to the negative x-axis. θ = ___________ degrees ______________...
Charge of uniform density 12 nC/m is distributed along the x axis from x = 2.0 m to x = 5.0 m. What is the electric potential (relative to zero at infinity) at the origin (x = 0)? a 140 V b 82V c 91V d 99 V e 74 V
Consider the following figure 8.00 μC 2.00 μC 4,00 μC (a) Find the electric potential, taking zero at infinity, at the upper right corner (the corner without a charge) of the rectangle in the figure. (Let x - 6.40 cm and y 2.40 cm.) b) Repeat if the 2.00-uC charge is replaced with a charge of -2.00 uC
16. An 800 V/m electric field is directed along the +x-axis. If the potential at x = 0 m is 2000 V, what is the potential at x 2 m? a. 200 V b. 1000 v c. 400 V d. 800Vv e. 600 V
Two point charges are on the y-axis. A 5.0 μC charge is located at y = 1.20 cm, and a-2.20 μc charge is located at y =-1.70 cm. (a) Find the total electric potential at the origin. (b) Find the total electric potential at the point having coordinates (1.50 cm, 0) Need Help? Read It Talk to a Tutor
Two point charges are placed on the x axis. The first charge, q1 = 8.00 nC, is placed a distance 16.0 m from the origin along the positive x axis; the second charge, q2 = 6.00 nC, is placed a distance -9.00 m from the origin along the negative x axis. Calculate the electric field at point A, located at coordinates (0m, 12.0m). Give the x and y components of the electric field as an ordered pair