part b PC-1 The figure to the right shows two source charges, PC-1 a) Show at...
JV 1. A positive charge qi is located at the point (0,0) and a negative charge q2 at (a,0) At an arbitrary point (Oy) on the y-axis: (a) Find the magnitude of the electric field E1 due to charge qi and the magnitude of the electric field E2 due to charge q2 in terms of the given quantities q1, q2.y, and a. (b) Find the cos and sin of the angle θ that the vector E2 makes with the x-axis,...
Part (a) of the figure shows two charged particles fixed in place on an x axis with separation L. The ratio q1/q2 of their charge magnitudes is 4.00. Part (b) of the figure shows the x component Enet,x of their net electric field along the x axis just to the right of particle 2. The x axis scale is set by xs = 31.2 cm. (a) At what value of x > 0 is Enet,x maximum? (b) If particle 2...
Two charges are arranged as shown in Figure Q1.1. Charge q1-48 pC is located on the positive y-axis at y 4.0 cm. Charge q2-100 pC is located on the positive x-axis at x -5.0 cm 91-48 pC 4.0 cm 5.0 cm q, =-100 pC 0 Figure Q1.1 Question6 1 pts Calculate the direction [in degrees] of E, the total electric field at the origin. Question7 1 pts A charge 43 20 pC is located on the origin. Calculate the magnitude...
Please, give me the right answer to the B part, and show workings pls The figure shows three charges q1, q2 and q3 situated at corners of a rectangle of sides a 14.0 cm and b 8.0 cm. 2 For q1 = 5.80 μC, q2 =-5.80 pC, and q3 = 2.50 μC find the electric potential at the center of the rectangle 2.79×105 V You are correct. Previous Tries Continuing with the figure above, how much of the electric energy...
45. Predict/Calculate Figure 19-42 shows a system consisting of three charges, q1 +5.00 uC, 92 +5.00 uC, and gs5.00 uC, at the vertices of an equilateral triangle of side d 2.95 cm. (a) Find the magnitude of the electric field at a point halfway between the charges qi and q2. (b) Is the magnitude of the electric field halfway between the charges q2 and qs greater than, less than, or the same as the electric field found in part (a)?...
Two charges (dipole) of +q = +6.00 μC and −q = −6.00 μC along the y-axis, separated by 3.00 m, as shown in the figure below. Point P is located 4.00 m directly to the right of the positive charge, as shown. The origin is located halfway between the charges. (a) At point P (test point), sketch and label the electric field E+ due to the positive charge +q, and the electric field E - due to the negative charge...
Two equal charges are situated on the x axis at 40.0 cm on either side of the origin as shown in the figure below. Location A is on the perpendicular bisector at a distance of 26.0 cm from the origin on the y axis. (Assume that the +x axis is directed to the right and the +y axis is directed up.) (a) If q1 = -2.75 MuC and q2 = -2.75 MuC, what is the net electric field due to...
I need the answer for PART B Problem 1 2 a) The figure shows three charges qi,q2, and q3, situated at corners of a rectangle of sides a 15.0 cm and b-7.0 cm For q,-4.60 μ0. q,--4.60 μC,and q3-2.00 μ0. find the electric potential at the center of the rectangle. 2.17x105 V You are correct. Computer's answer now shown above. Previous_Tries Your receipt is 160-5179 b) Continuing with the figure above, how much work is required in moving q3 to...
Problem 17.40 Two point charges are separated by 25.0 cm (see the figure(Figure 1) ). Assume that q1 = 6.20 nC and q2 = 15.0 nC . Part A Find the magnitude of the net electric field these charges produce at point A. E = m N/C Part B Find the direction of the net electric field these charges produce at point A. Find the direction of the net electric field these charges produce at point . The field is...
Two equal charges are situated on the x axis at 40.0 cm on either side of the origin as shown in the figure below. Location A is on the perpendicular bisector at a distance of 31.0 cm from the origin on the y axis. (Assume that the +x axis is directed to the right and the y axis is directed up.) 1 g2 (a) It 41--3.25 C and 42-3.25 uC, what is the net electric field due to both charges...