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- State what is meant by electric field strength at a point in space. How is its direction defined? Given that the magnitude field strength, E, at a distance r from a point charge Q is given by the formula: ?= 2/4??0 ?/?2 calculate the magnitude of the electric field at a point which is 10 cm from a positive 24 μC charge. Use ?=2/4??0 = 9×109 m/f. Give your anser in v/m.Consider an electric dipole consisting of two charges +q and -q as shown. Make a qualitative sketch showing the direction of the electric field at Point B. A positive charge of 5.0×10⁻⁴ C is in an electric field that exerts a force of 2.5 x 10⁻⁴ N on it. What is the magnitude of the electric field at the location of the charge? What magnitude point charge creates a 10,000 N/C electric field at a distance of 0.250 m?Use GFSA (Given, Find, Solution, and Answer) on the given space below. your final answer, write it in scientific notation with 2 decimal places. The first charge with −3.0 μC is situated on the y-axis 2 m from the starting point at the coordinates (0,1) while a second charge with +1.0 μC is located on the x-axis 2 m from the starting point at the coordinates (1,0). A.What is the magnitude of the electric field? b.What is the direction of the electric field?
- In the figure below, the electric field at the origin is zero. 1) If q1 is 1.00×10^−7 C, what is q2? (Express your answer to three significant figures.)Use GFSA (Given, Find, Solution, and Answer) on the given space below. Encircle your final answer, write it in scientific notation with 2 decimal places (if possible). An cylinder with radius 1 m and length 1.5 m has an infinite line of charge with a linear charge density of 30 C/m. ( please Make an illustration of the problem) (c) Calculate the electric field at a point 3 m away from the infinite line of charge. please explain every step of solutionPlease fill out the template. Note that you need to have a picture, a list of knowns and unknowns, the general equation/s you will use, and the math steps to solve for the unknown, only plug in the numbers after you have solved for the unknown, and the answer with units included. Suppose you have two point charges each of 78 nC. How many millimeters apart must the two charges be to have a force of 0.95 N between them?
- Two tiny spheres, A and B are situated along the x-axis with qA = 1 nC at the origin and qB = -1 nC at x = 1.0 m. Where could you put a third charge qC =1 nC so that the net force on qC is zero? Please give your answer in meters. You can get partial credit if you draw a diagram and explain your reasoning.Given the diagram shown to the right and the variables k, Q and a: a.Find the magnitude of the electric field at point P in terms of the given variables and a numeric constant.Point charges q1 and q2 of 1.00 x 10-19 C, respectively, are placed 0.600 x 10-12 m apart. Thus d = 0.300 x 10-12 m in fig. 1 below. (a) Refer to fig. 1. What is the magnitude Enet of the net electric field at point a midway between the two charges? For the next parts, see fig. 2. Point b is on the perpendicular bisector of the line connecting the two charges. Let the distance between either charge and point b be D = 0.600 x10-12 m. (b) At point b, what must be the y-component Eynet of the net electric field due to the two charges? Show work. (c) At point b, what is the x-component Exnet of the net electric field due to the two charges? (d) At point b, what is the direction of the net electric field due to the two charges? Indicate this direction by drawing an arrow in fig. 2 with its tail at point b. (e) At point b, what is the magnitude of the net electric field due to the two charges? What is the relationship between your answer here and your answer to part (e)?
- In the figure below, q1 = 1.50××10^−7 C and q2 = 3.50×10^−7 C. 1)What is the x component of the electric field E⃗ E→ at the point (x, y) = (6.00 m, 3.00 m)? (Express your answer to three significant figures in N/C.) NOTE -- the figure is correctlylabeled in centimeters and the question is asking for the E-field at (6,3) meters. Account for this in your calculation. 2)What is the y component of the electric field E⃗ E→ at the point (x, y) = (6.00 m, 3.00 m)? (Express your answer to three significant figures in N/C.)What is the magnitude of the electric field 90.30 cm above a 0.00054C charge? Do NOT include units and round answerPls help me asap with the following and make sure its correct 100%, thanks Q: Answer the given question. 1. Three +4.0 nCnC charges are positioned at the points (-1 mm, 0), (1 mm, 0), and (0, 2 mm). What is the magnitude of the electric field at the origin? Express your answer with the appropriate units.