Answer both questions plz (1 point) Q2 Q3 A В + d3 d2 d1 Three point...
Q1 Q2 Q3 d1 d2 Q1 a2 Q3 11 12 Question 5 (20 points) In the diagram above, the charge Q1 and Q3 are fixed in place. The charge Q2 is free to move and is initially at rest in the position depicted in the diagram (a). Upon release, the charge Q2 will move toward Q3, as shown in the diagram (b). The charges Q1, Q2, and Q3, are 3nc, Inc and 2nc, respectively. The initial distance between the charge...
Three charged particles of q1 = 30.0 nC, q2 = -30.0 nc, and q3 = 15.0 nC are placed on the y-axis, as shown in the figure. Charge q1 has the coordinates (0, 12.0 cm), q2 has the coordinates (0, -12.0 cm), and q3 is located at the origin. (a) Find the electric potential energy in J) of the configuration of the three fixed charges. (b) A fourth particle, with a mass of 1.74 x 10-13 kg and a charge of q4 =...
Three positive point charges
are located at the corners of a rectangle, as illustrated in the
figure below. Find the electric field (in N/C) at the fourth corner
if q1 = 9 nC, q2 = 8 nC, and q3 = 7 nC. The distances are d1 = 0.6
m and d2 = 0.2 m. (Let the positive x-direction be to the right,
and the positive y-direction be upward.)
42 d2 43 41
Three positive point charges are located at the corners of a rectangle, as illustrated in the figure below. Find the electric field (in N/C) at the fourth corner if q1 = 5 nc, q2= 4 nC, and q3= 8 nc. The distances are d1 = 0.5 m and d2=0.2 m. (Let the positive x-direction be to the right, and the positive y-direction be upward.) 42 d2 d1 43 N/C net, x N/C net, Y eBook
Three positive point charges are located at the
corners of a rectangle, as illustrated in the figure below. Find
the electric field (in N/C) at the fourth corner if q1 = 9 nC, q2 =
8 nC, and q3 = 7 nC. The distances are d1 = 0.6 m and d2 = 0.2 m.
(Let the positive x-direction be to the right, and the positive
y-direction be upward.)
Three positive point charges are located at the corners of a rectangle, as illustrated in the figure below. Find the electric field (in N/C) at the fourth corner if q1 = 6 nC, q2 = 8 nC, and q3 = 5 nC. The distances are d1 = 0.6 m and d2 = 0.2 m. (Let the positive x-direction be to the right, and the positive y-direction be upward.)
Three point charges lie along a straight line as shown in the figure below, where q1=6.12 μC, q2=1.64 μC and q3=-2.02 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 (a) q1 (b) q2(c) q3
The figure shows three charges
q1, q2 and q3 situated at corners
of a rectangle of sides a = 14.0 cm and b = 6.0 cm.For q1 = 5.10 μC, q2 = -5.10 μC, and
q3 = 2.20 μC find the electric potential at the center
of the rectangle.Continuing with the figure above, how much of the electric
energy of the system would be expended in moving q3 to
infinity while q1 and q2 remain in their
positions?
A point charge q2 = -4.5 μC is fixed at the origin of
a co-ordinate system as shown. Another point charge q1 =
3.5 μC is is initially located at point P, a distance d1
= 7.2 cm from the origin along the x-axis
1)
What is ΔPE, the change in potenial energy of charge
q1 when it is moved from point P to point R, located a
distance d2 = 2.9 cm from the origin along the x-axis as...
q1 = 9 μC q2 = 4 μC λ1 = 1 μC/cm λ2 = 1 μC/cm σ1 = 1 μC/cm2 σ2= 9 μC/cm2 d1= 1cm d2= 3 cm d3= 4cm Calculate the total electric field strength E along the line, when: (a) connects two point charges q1 and q2 with the distance d1 between; (b) is perpendicular to two parallel infinite strands of charge density λ1 and λ2 and the distance d2 between; (c) is perpendicular to two parallel infinite...