Three charges are attached to the vertices of a triangle as shown in the figure below....
Three charges are attached to the vertices of a triangle as shown in the figure below. Assume that the positions of the -0.6 C and the +0.8 C charges formed they-axis and the -0.6 C and the +1.0 C charges formed the +x-axis. +0.80 C 10.0 cm 8.0 cm -0.60 C 10C (a) Determine the x-coordinate of the 0.8 C charge. ) Determine the y coordinate of the +0.0 C charge. (e) Determine the x coordinated the the 1.0 C...
Three charges are attached to the vertices of a triangle as shown in the figure below. Assume that the positions of the -0.6 JC and the +0.8 PC charges formed the +y-axis and the -0.6 pc and the +1.0 PC charges formed the +x-axis. +0.80 uc 10.0 cm 8.0 cm -0.60 4C +1.04C (a) Determine the x-coordinate of the +0.8 C charge. m (b) Determine the y-coordinate of the +0.8 C charge. m (c) Determine the x-coordinate of the +1.0...
a-e
Three charges are attached to the vertices of a triangle as shown in the figure below. Assume that the positions of the 0.6 C and the +0.5 charges formed the yaadis and the-0.6 y and the +1.0 C charges formed the x-axis. +0.80 uc 10.0 cm 8.0 cm L -0.60 uc +1.0 C (a) Determine the x-coordinate of the +0.8C charge (b) Determine the y coordinate of the +0.8C charge m (c) Determine the x-coordinate of the +1.0 y...
Three charges are attached to the vertices of a triangle as shown in the figure below. Assume that the positions of the -0.6 pc and the +0.8 PC charges formed the+y-axis and the -0.6 pc and the +1.0 C charges formed the x-axis. +0.80 C 80 cm 10,0 cm -0.60 uc +1.0 C (*) Determine the x-coordinate of the +0.8 pc charge (*) Determine the y coordinate of the 0.8 C charge (c) Determine the coordinate of the +1.0 C...
Three charges are at the corners
of an isosceles triangle as shown in the figure . The 5.00 μC charges form a dipole.a) Find the magnitude of the force the
-10.00 μC charge exerts on the
dipole.F= _______ Nb) Find the direction of the force
the -10.00 charge exerts on the
dipole.(Suppose that -axis directs to the top of the image.) = ____________ counterclockwise from the +y - directionc) For an axis perpendicular to the line
connecting the 5.00 μC charges at...
NAME (5 points) 1. Three point charges are fixed in place in a right triangle. What is the magnitude and direction of the electric force on the -0.60 4C charge due to the other two charges? +0.80 pc 100 cm 8.0 cm ---- + C +1.0 -0.60 C
Three point charges lie at the vertices of an equilateral
triangle as shown. Charges #2 and #3 make up an electric dipole.
The net electric torque that charge #1 exerts on the dipole is:
Three point charges lie at the vertices of an equilateral
triangle as shown. Charges #2 and #3 make up an electric dipole.
The net electric force that charge #1 exerts on the dipole is
in
The answer for first one is A and the second one...
Three point charges lie along a straight line as shown in the figure below, where q1 = 6.30 µC, q2 = 1.59 µC, and q3 = -2.12 µC. The separation distances are d1 = 3.00 cm and d2 = 2.00 cm. Calculate the magnitude and direction of the net electric force on each of the charges.Three charges lie along a horizontal line. Positive charge q1 is on the left. Positive charge q2 is a distance d1 to the right of...
Three charges are arranged as shown in the figure below. Find
the magnitude and direction of the electrostatic force on the
charge q = 5.14 nC at the origin. (Let
r12 = 0.230 m.)
Three point charges lie along the axes in the x
y-coordinate plane.
Positive charge q is at the origin.
A charge of 6.00 nC is at (r1 2, 0), where
r1 2 > 0.
A charge of −3.00 nC is at (0, −0.100 m).
1) what...
The three charges in the figure below are at the vertices of an isosceles triangle. Let q = 8.00 nC and calculate the electric potential at the midpoint of the base. (Let d1 = 1.00 cm and d2 = 4.50 cm.) Three charged particles lie at the vertices of an isosceles triangle. The bottom side has length d1 and the upper sides have length d2. The positive top charge is labeled q and the bottom two negative charges are each...