As you have not mentioned the question number , i have given first question's soution.
For more solutions please send it separatly .
for any doubt please comment and please give an up vote.Thank you
second picture is figure 1 You have a uniformly charged rod with charge Q 1.00 mC...
You have a uniformly charged rod with charge Q 1.00 mC and length L 1.00 m centered on the origin and along the V-axis and a point charge with q 1.00 pC at a position of (0.25 m, 0 m), what is the force (both magnitude and direction) that the rod exerts on the point charge? e Create a plot tnodeled after those in Figure 1 showing that the discrete result converges to the integral result n=3 n=5 9-44 110...
a) Calculate the electrostatic force on a uniformly charged rod of length 2l,and charge q which lies along the axis of a uniformly charged ring of radius R and charge q'. The centers of the charged rod and the rings are displaced by z = z0 . (b) Show that if z0 >>l,is satisfied, then the expression of calculated force reduces to that between point charges.
(a) Calculate the electrostatic force on a uniformly charged rod of length 2l, and charge q which lies along the axis of a uniformly charged ring of radius R and charge q'. The centers of the charged rod and the rings are displaced by z = z0. (b) Show that if z0 >> l, is satisfied, then the expression of calculated force reduces to that between point charges.
A very thin uniformly charged plastic rod with total charge radius r and placed in the second quadrant, with its center at the origin. An identical rod (except with charge + Q) continues the circle as shown in the figure, to form a half circle centered at the origin. Find the electric field vector E at the origin, writing it in component form. Can anyone answer this question? Will give thump up :) 3) A very thin uniformly charged plastic...
You have a uniformly charged rod of length L and total charge Q. You take the rod and bend it into a half circle. What is the electric potential at the center of the “circle” that half circle is a part of?
Figure 22-47 a shows a nonconducting rod with a uniformly distributed charge +Q. The rod forms a 10/22 of circle with radius R and produces an electric field of magnitude Earc at its center of curvature P. If the arc is collapsed to a point at distance R from P (Figure 22-47b), by what factor is the magnitude of the electric field at P multiplied?
8. A uniformly charged rod of length L and total charge Q lies along the x axis as shown in in the figure below. Find the components of the electric field at the point P on the y axis a distance d from the origin. ANSWER:
In the figure a nonconducting rod of length L = 8.48 cm has charge -q = -4.37 fC uniformly distributed along its length. (a) What is the linear charge density of the rod? What are the (b) magnitude and (c) direction (positive angle relative to the positive direction of the xaxis) of the electric field produced at point P, at distance a = 14.8 cm from the rod? What is the electric field magnitude produced at distance a = 68...
A uniformly charged rod of length L and total charge Q lies along the x axis as shown in in the figure below. (Use the following as necessary: Q, L, d, and ke.) (a) Find the components of the electric field at the point P on the y axis a distance d from the origin (b) What are the approximate values of the field components when d >> L?
Question 7 (1 point) A uniformly charged insulating rod with length L is bent into the shape of a semicircle as shown in figure below. The rod has total charge Q. Find (a) the magnitude and (b) the direction of the electric field at O, the center of the semicircle .0 1E1=&M , upward kelal L2 n-讐 .to the right IEI =-1 , upward 闳ㄧ讐 IE 2KelqIT , to the right right 2ke IE- , to the right IEl- T...