Four charged beads are arranged in a diamond centered at the
origin. Each of the beads is 1.9cm from the origin in one of the
cardinal directions. The bead above the origin has a charge of
+110nC, the bead to the right of the origin has a charge +490nC,
the bead below the origin has a charge +110nC, and the bead to the
left of the origin has charge −490nC. A ball bearing with a charge
+70nC is placed at the origin. Using the convention that i^ is
right and j^ is up, what is the force on the ball bearing in
component form?
F→= Ni^+ Nj^
How much electric potential energy does the ball bearing
have?
E= J
Please show work
Four charged beads are arranged in a diamond centered at the origin. Each of the beads...
(3 points) Four charged beads are arranged in a diamond centered at the origin. Each of the beads is 0.9cm from the origin in one of the cardinal directions. The bead above the origin has a charge of +210nC, the bead to the right of the origin has a charge +590nC, the bead below the origin has a charge +210nC, and the bead to the left of the origin has charge -590nC. A ball bearing with a charge +60nC is...
(3 points) Four charged beads are arranged in a diamond centered at the origin. Each of the beads is 2.3cm from the origin in one of the cardinal directions. The bead above the origin has a charge of +170nC, the bead to the right of the origin has a charge +420nC, the bead below the origin has a charge +170nC, and the bead to the left of the origin has charge-420nC.A ball bearing with a charge +70nC is placed at...
The figure below shows three small, charged beads, all lying along the horizontal axis. Bead A, at left, has a 5.85 nC charge. Bead B has a 1.10 nC charge and is 3.00 cm to the right of A. Bead C has a -2.65 nC charge and is 2.00 cm to the right of B. + — 2 3.00 cm -2.00 cm (a) What is the magnitude (in N/C) of the electric field at a point 2.00 cm to the...
A charged disk and a charged ring are centered at the origin in the free space as shown in figure 4. Bothe changed elements exists in the xy plane. The disk has a radius a and carries a uniform surface charge density of Ps. The ring has a radius 2a and carries a uniform line charge density Pe. Find the following: a) The electric field intensity on z-axis and determine where the electric field is zero b) The electric potential...
A. Two small metal beads are charged. One has a charge of –5x10-9 C and the other has a charge of +9.0x10., C. The negatively charged bead is attracted toward the positively charged bead by a force with a magnitude of 8.0x10-4 N. Calculate the distance between the beads. Show your calculation. 12.qx = - 4x10°C and q3 = -8x10°C. Calculate the distance between A and B at this moment, when kinetic energy has its minimum value and potential energy...
What is the charge on the ball bearing? A small glass bead has been charged to +20 nC. A tiny ball bearing 1.0 cm above the bead feels a 0.018 N downward electric force. What is the charge on the ball bearing?
A semicircle of radius a is in the first and second quadrants centered on the origin. The left half of the semicircle has a charge density λ = λ0 and the right half of the semicircle has a charge density of λ = -λ0. (i) Draw the direction of the net electric field at the origin from the entire charged semicircle. (ii) Solve for the electric field at the origin due to the semicircle in terms of λ, a, and constants.
A small glass bead has been charged to + 20 nC . A tiny ball bearing 2.0 cm above the bead feels a 1.4×10−2 N downward electric force. What is the charge on the ball bearing?
A small glass bead has been charged to + 25 nC . A tiny ball bearing 3.0 cm above the bead feels a 1.4×10−2 N downward electric force. What is the charge on the ball bearing?
A small glass bead has been charged to ++ 30 nC . A tiny ball bearing 3.0 cm above the bead feels a 1.4×10−2 N downward electric force. What is the charge on the ball bearing?