Part D: Uniform Line Charge de Total Charge = Q Total Length=L 1/2 dq L/2 Theoretical:...
A line of charge has a length L, and a total charge of +0 distributed uniformly on it. Calculate the electric field due to this line at the point P as shown on the figure 0. Choose a set of coordinates for this problem. Draw the coordinates on the figure. Think about how you intend to integrate over this shape. 1. What is the linear charge density lambda on the ring, in terms of the given parameters? 2. What is...
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.
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.
A.) charge +Q is distributed uniformly along a straight line of length L. Find the Electric field at a point P along the direction of the line a distance d from it. Calculate the electric field strength if Q = + 6 μC , L= 0.10m and d = 0.05m. B.) With the same charge distribution, calculate the electric field strength at a point a distance d = 0.05m above or below the mid-point of the charged line.
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
For Problems 2 -3: A thin rod of total length L has non-uniform charge density given by 0 wherex- 0 is at the center of the rod P2. (a) Describe in this charge distribution words (b) If the total charge on this rod is Q, determine o P3. Determine the electric field a distance d past the end of the rod. Does your answer depend on which end?
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.
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...
1. A line of charge aligned along the z-axis with a length of L has a charge density of de(z) = pz Where is the displacement along the axis and 2 = 0 at the center of the line. B gives the linear charge density per length, determining the charge density at a given location of the line. 2=0 - - a. Discuss the meaning of the linear charge density equation and what it physically means about the amount of...