Chapter 20 Homework Problem 20.28 5 of 11 A point charge of -7.5 μC is at...

A charge of -2.790 μC is located at (2.820 m, 4.309 m) and a charge of...

A charge of -2.790 μC is located at (2.820 m, 4.309 m) and a charge of 1.865 μC is located at (-2.752 m, 0). 1. Find the electric potential at the origin. Express your answer using three significant figures (V=___) 2. There is one point on the line connecting these two charges where the potential is zero. Find this point. Express your answers using three decimal places separated by a comma. (x,y=____m)

Two point charges lie on the x axis. A charge of 6.1 μC is at the...

Two point charges lie on the x axis. A charge of 6.1 μC is at the origin, and a charge of -9.4 μCis at x=10.0cm. You may want to review (Pages 671 - 675) . Part A What is the net electric field at x=−4.0cm? Express your answer using two significant figures. Part B What is the net electric field at x=+4.0cm? Express your answer using two significant figures.   

Two point charges, Q1 = 2.9 μC and Q2 = -1.3 μC , are placed on...

Two point charges, Q1 = 2.9 μC and Q2 = -1.3 μC , are placed on the x axis. Suppose that Q2 is placed at the origin, and Q1 is placed at the coordinate x1 = − 4.0 cm (Figure 1). Part A Part complete At what point(s) along the x axis is the electric field zero? Determine the x-coordinate(s) of the point(s). Express your answer using two significant figures. If there is more than one answer, enter your answers...

Two point charges, Q1 = 3.0 μC and Q2 = -1.9 μC ,are placed on the...

Two point charges, Q1 = 3.0 μC and Q2 = -1.9 μC ,are placed on the x axis. Suppose that Q2 is placed at the origin, and Q1 is placed at the coordinate x1 = − 3.0 cm (Figure 1). 1. At what point(s) along the x axis is the electric field zero? Determine the x-coordinate(s) of the point(s). Express your answer using two significant figures. If there is more than one answer, enter your answers in ascending order separated...

IP A parallel-plate capacitor has plates with an area of 1.3×10−2 m2 and a separation of...

IP A parallel-plate capacitor has plates with an area of 1.3×10−2 m2 and a separation of 0.82 mm . The space between the plates is filled with a dielectric whose dielectric constant is 2.0. Part A What is the potential difference between the plates when the charge on the capacitor plates is 4.2 μC ? Express your answer using two significant figures. V = V Previous AnswersRequest Answer Incorrect; Try Again; 4 attempts remaining Part B Will your answer to...

point charge -2.0 μC is located at x = 0 y = -0.30 m. What are...

point charge -2.0 μC is located at x = 0 y = -0.30 m. What are (a)the magnitude and (b)direction of the total electric force that these charges exert on a third point charge Q = 4.5 μC at x = 0.40 m, y = 0? Part A Express your answer using two significant figures. |F| F =

QUESTION 1: A +1.80 μC point charge is sitting at the origin. A: What is the...

QUESTION 1: A +1.80 μC point charge is sitting at the origin. A: What is the radial distance between the 500 V equipotential surface and the 1000 V surface? Express your answer in meters to three significant figures. B: What is the distance between the 1000 V surface and the 1500 V surface? Express your answer in meters to three significant figures. C: Explain why the answers to Part A and Part B are not the same. QUESTION 2: Here...

Two point charges lie on the x axis. A charge of 6.0 μC is at the...

Two point charges lie on the x axis. A charge of 6.0 μC is at the origin, and a charge of -9.6 μC is at x=10.0cm. You may want to review (Pages 671 - 675) . What is the net electric field at x=−4.0cm? Express your answer using two significant figures. What is the net electric field at x=+4.0cm?

Two point charges, Q1 = 3.6 μC and Q2 = -1.3 μC , are placed on...

Two point charges, Q1 = 3.6 μC and Q2 = -1.3 μC , are placed on the x-axis. Suppose that Q2 is placed at the origin, and Q1 is placed at the coordinate x1 = −6.0 cm (Figure 1). Part A) At what point(s) along the xx axis is the electric field zero? Determine the x-coordinate(s) of the point(s). Express your answer using two significant figures. If there is more than one answer, enter your answers in ascending order separated...

Part A Compute the reactance of a 0.435 HH inductor at frequencies of 57.5 HzHz and...

Part A Compute the reactance of a 0.435 HH inductor at frequencies of 57.5 HzHz and 620 HzHz . Enter your answer in ohms separated by comma. XL1,XL2XL1,XL2 = ΩΩ SubmitPrevious AnswersRequest Answer Incorrect; Try Again; 6 attempts remaining Part B Compute the reactance of a 2.70 μFμF capacitor at the same frequencies. Enter your answer as two numbers separated with a comma. XC1,xC2XC1,xC2 = nothing ΩΩ SubmitRequest Answer Part C At what frequency is the reactance of a 0.475...