14CThe figure above shows four very thin parallel planes of charge with equal separation between them.The charge density on plate 1 is 1 o.The charge density on plate 2 is -1 o.The charge density on plate 3 is -2 o.The charge density on plate 4 is -1 o.Your answers for the electric field must include the correct sign. We choose positive electric field along thepositive x-direction.What is the Electric Field at point D? (in units of o/ɛ0)3.2.

Answered: Image /qna-images/answer/390efad2-9cac-41d6-a9b9-f4007c9a119f.jpg

Answered: 1 4 A B C The figure above shows four…

Similar questions

A-1.5-μC charge experiences a 10î -N electric force in a certain electric field. Part A What force would a proton experience in the same field? Express your answer in newtons. ΠΠ ΑΣΦ Fx = ? N
In Configuration 1 below, what is the magnitude of the predicted electric field at point b? Point b is 2.00 m from the +3.00 nC charge (this is also in your lab procedure). Pt. a Pt. b Pt. c +3 nC figure 1 a Your answer should: Be in the Correct SI Units of N/C Be rounded to 2 Decimal Places For this problem you can't enter a number in Scientific Notation (the program doesn't allow it). For example: 2.06 x 102 would be written as 206.00
ST At a distance of 48.7 cm from a very long (essentially infinite) uniform line of charge, the electric field strength is 1,866 N/C. At what distance (in cm) from the line will the field strength be equal to 811 N/C? X
Suppose a speck of dust in an electrostatic precipitator has 1.0000×1012 protons in it and has a net charge of –5.00 nC (a very large charge for a small speck). a. Find the electric charge due to the protons in the dust. Calculate the charge due to only the protons.
Now it's your turn Four charged particles are placed so that each particle is at the corner of a square. The sides of the square are 15 cm. The charge at the upper left corner is +3.0 µC, the charge at the upper right corner is -6.0 μC, the charge at the lower left corner is -2.4 µC, and the charge at the lower right corner is -9.0 μC. a. What is the net electric force on the +3.0 µC charge? b. What is the net electric force on the -6.0 µC charge? c. What is the net electric force on the-9.0 uC charge?
a. Two charges are separated by a distance of 5.0 cm. q1 has a charge of 4.0x10^-6 C and q2 has a charge of 2.8x10^-7 C. Locate the point(s) where a positive test charge could be placed to keep it in equilibrium.b. Sketch the electric field lines for this system of charges (*The screenshot diagram*).
The following diagram shows the electric field lines in a region of space containing two small charged spheres (Y and Z). Which of the following statements is correct? O a. Y and Z both are negative. O b. Y is negative and Z is positive. O C. Y and Z both are positive. Od. a. Y is positive and Z is negative.
please answer both parts with good explanation.
The electric field strength at a point in space near a point charge source is 5000 N/C. How does the field strength change if the source charge has doubled charge? If we keep the source charge the same but half the distance to the point charge, how does the electric field change?
▼ Part A The electric field strength 29 cm from the center of a uniformly charged, hollow metal sphere is 11,000 N/C. The sphere is 8.4 cm in diameter, and all the charge is on the surface. What is the magnitude of the surface charge density in nC/cm2 ? Express your answer in nanocoulombs per square centimeter. Hνα ΑΣφ nC/cm2 Submit Request Answer Provide Feedback
How to solve this question