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?
You have a uniformly charged rod of length L and total charge Q. You take the...
L= 21[mm]; r=24[mm] A total charge of+Q [fC] is uniformly distributed along the length of a rod of length L [mm] (Fig. H2.1). Determine the electric field and the electric potential at point P, a distance r [mm] from one end of the rod as shown element dr Fig. H2.1 A total charge of+Q [fC] is uniformly distributed along the length of a rod of length L [mm] (Fig. H2.1). Determine the electric field and the electric potential at point...
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...
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:
A uniformly charged rod with total charge Q and length L is placed along the x-axis as shown to the right. (a) Calculate the electric field, E, at point P. Express your answers in terms of Q, L and ε0 or k.
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...
Potential of a Finite RodA finite rod of length L has total charge q, distributed uniformly along its length. The rod lies on the x-axis and is centered at the origin. Thus one endpoint is located at (-L/2,0), and the other is located at (L/2,0). Define the electric potential to be zero at an infinite distance away from the rod. Throughout this problem, you may use the constant k in place of the expression .a) What is VA, the electric potential...
A very thin plastic rod of length L is rubbed with cloth and becomes uniformly charged with a total positive charge Q. In this problem you will be asked to calculate the electric field a distance d from the top of the rod and on axis with the rod at observation location “∗” as indicated in the diagram.C. Integrate over the charge distribution to determine the electric field vector at the observation location. Your answer should only contain the given...
Uniformly charged rod (q=62nC) of length 31cm is bend into the shape of a circular hoop of 5cm radius. It is done in such a way that there is no charge lost. As result the hoop has a 0.42cm gap. Find the Electric field at the center of this hoop. Please can you write as clearly as possible
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?
Charge Q is uniformly distributed along a thin, flexible rod of length L. The rod is then bent into the semicircle shown in the figure (Figure 1).Part A Find an expression for the electric field E at the center of the semicircle. Part BEvaluate the field strength if L = 16 cm and Q = 38 nC