The figure(Figure 1) shows a thin rod of length L with total charge Q.
Part A
Find an expression for the electric field E at distance a from the end of the rod. Give your answer in component form.
The figure(Figure 1) shows a thin rod of length L with total charge Q.
The figure (Figure 1)shows a thin rod of length L with total charge Q.Part A Find an expression for the electric field strength on the axis of the rod at distance r from the center.Part B Verify that your expression has the expected behavior if r >> L.Part C Evaluate Eatr = 4.4 cm if L = 5.0 cm and Q = 2.9 nC.
The figure (Figure 1)shows a thin rod of length L with total charge QPart C Evaluate E at r = 4.9 cm if L = 5.0 cm and Q = -5.5 nC.
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
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 AFind an expression for the electric field \(\vec{E}\) at the center of the semicircle. Hint: A small piece of arc length \(\Delta s\) spans a small angle \(\Delta \theta=\Delta s / R,\) where R is the radius.Express your answer in terms of the variables Q, L, unit vectors \(\hat{i}, \hat{j},\) and appropriate constants.Part BEvaluate the field...
The figure shows a thin plastic rod of length L = 10.3 cm and uniform positive charge Q = 52.7 fC lying on an x axis. With V = 0 at infinity, find the electric potential at point P1 on the axis, at distance d = 3.07 cm from one end of the rod.
A thin rod of length L with total charge Q lies along the x-axis and is centered at the origin. Please answer the following A. What is the electric field strength E at a point P located at position x? B. Does your expression have the expected behavior for x >> L? C. Evaluate E at x = 1.9 cm if L = 3.5 cm and Q = 17 nC.
A uniformly charged rod of length L=1.6 m lies along the x-axis with its right end at the origin. The rod has a total charge of Q = 2.6 uC. A point P is located on the x-axis a distance a = 1.2 m to the right of the origin.Part (a) Consider a thin slice of the rod of thickness dr located a distance x away from the origin, what is the direction of the electric field t point P due...
1. Electric charge is distributed uniformly along a R thin rod of length a, with total charge Q. Take the у potential to be zero at infinity e a. Find the electric field Ē at point P, a distance x to the right of the rod (10 pts) b. Find the electric field Ē at point R, a distance y above of the rod (10 pts) c. In parts (a) and (b), what does your result reduce to as x...
A total charge Q is uniformly distributed along a thin flexible insulating strip of length L. The strip is then bent into the semicircle shown in the figure (Figure 1) Part A Find a symbolic expression for the electric field E at the center of the semicircle Part B Compute the strength of this field if L = 16 cm and Q = 49 nC.
A total charge Q is uniformly distributed along a thin, flexible insulating strip of length L. The strip is then bent into the semicircle shown in the figure (Figure 1) Part AFind a symbolic expression for the electric field E at the center of the semicircle.Part B Compute the strength of this field if L=17 cm and Q=31 nC.