uestions for electric field experiment i) Info and draw on in it three more equipotential lines:...
2. Draw the lines of force ( electric field ) and the equipotential lines for the charge. +3 +4 2 C/m
-Q2 +01 Draw and identify the lines of the electric field and the equipotential lines for the following arrangement of conductors: a punctiform charge and a parallel plate Q1> Q2
how is the drawing suppose to be like? 3. (4 points) The diagram below shows the equipotential lines around a cluster of positive charge, Q. Draw electric field lines to show the force that a positivetest charge will experience if placed at points A and S B. Assume that point B is 3x farther from the charge than point A. 98 lenger than at B 3. (4 points) The diagram below shows the equipotential lines around a cluster of positive...
(c) How are the Electric Field lines related to the equipotential lines? How do they cross each other? What does Eq. 11.2 indicate? Use a sketch to illustrate the relation of the Electric Field lines to the equipotential lines. (d) The Electric Field gives the direction in which a positive test charge would move from a given point in space. Explain why different lines of force can never cross each other.
(Figure 1) shows a region of space with an electric field. Vertical lines indicate equipotential surfaces. A particle with charge q = -4.8 nC is initially at the location of the -20-V equipotential line. At time t = 0 the particle is released from rest. Ignore the force exerted by Earth on the particle. Part A: Estimate the magnitude of force exerted by the electric field on the particle when it passes the 0-V equipotential line. Part B: Estimate the...
A) Identify the polarity of each terminalB) calculate the electric field for each segment of the electric field line given that the distance between the two digital multi-meter probe tips is 2.0*10^-2 m. C) Determine the potential difference between the two equipotential lines by summing the voltages along the electric field line. Compare this value to the potential difference found by subtracting the voltage of the two equipotential lines.
2: Draw electric field lines and equipotential lines for the following situations. A: An infinite plane with negative charge. B: Two point charges 2Q and Q
In the image below, draw representative electric field vectors and equipotential lines for a negative charge. Label the highest and lowest equipotential lines. You will be graded on thedirection, orientation, and spacing of your lines.
The equipotential lines in a region of electric field are shown in the diagram below. For each path indicated below, what is the work done by the electric field in moving a charge q = +9.2 x 10-7C along that path? Here V0 = +120 V. (a) from A to B(b) from A to C (c) from A to D(d) from D to C
How would I go about drawing the equipotential lines and electric field lines? I'm not sure as to what this is supposed to look like 3. In the following figure, the electric potential difference between the two parallel plates is 5.0 V. Draw four equipotential lines with 1-v difference between two neighboring lines and label each line with the corresponding voltage. Also draw four electric field lines in the