The diagram for the equipotential surface and electric field lines is as follows
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Q: What is the amount of work done in moving a unit positive charge along an equipotential surface?
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Q: A charge monkey took his three favorite point charges, qA = -39.7 nC, qb= 24.5 μC, and qc = 8.5 nC,…
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The diagram for the equipotential surface and electric field lines is as follows
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- Figure below shows the equipotential lines and the electric field lines. When an electron moves from A to B along an electric field line (See Figure), the electric field does 6.94E-20 J of work on it. What are the electric potential differences (a) VB – VA; and (b) Vc-VA? Electric field line · Equipotentials8- Equipotential surfaces are to be drawn 130 V apart near a very large uniformly charged metal plate carrying a surface charge density σsigma = 0.79 μC/m2 Part A How far apart (in space) are the equipotential surfaces? (Δx=?) Express your answer using two significant figures.Question e
- Identify the equipotential surfaces in the following figures.In a parallel-plate capacitor, how can the capacitance be decreased?The figure below shows the equipotential lines due to a dipole placed on the x axis. The voltage values are shown on each line. What is the potential difference in Volts between the points A and B (ΔV=VB−VA) shown with green dots.
- hov A positive charge is located within a set of Equipotential lines. If the charge is moving inwards, we can conclude that NOTE: There may be multiple correct answers, you need yo find them all for full credit. its Kinetic Energy is increasing, and it is speeding up. its Potential Energy is decreasing its Potential Energy is increasing its Kinetic Energy is decreasing, and is is slowing down. O O O 0Define equipotential surfaces.Draw the electric field lines and equipotential lines for an electric dipole.
- The figure below shows equipotential contours in the region of space surrounding two charged conductors. 15.0 V 10.0 V OV 30.0 V 35.0 V 45.0 V 20.0 V 25.0 V Find the work WAB in electron volts done by the electric force on a pr that moves from point A to point B. Similarly, find WAC, WAD, and W, (Assume the proton starts and stops at rest. Enter your answers in e' HINT (a) w AB ev (b) WAC ev (c) WAD eVA charge monkey took his three favorite point charges, qA = -35.7 nC, qB = 19.5 μC, and qc = 7.9 nC, to a nearby electric field that had the nicely mapped out equipotential contours you see in the figure. The charge monkey spent a pleasant afternoon kicking the little charges around the equipotential landscape along various trajectories, three of which are shown. Assume the monkey kicked the charges one a a time. How much did the electric potential energy change as the monkey kicked each charge along its indicated trajectory? A. AUE= B. AUE= C. AUE = HJ HJ HJ +15 V /+15 V +5 V -15 V -5 V OVa +15nC charge is at the origin. How much farther from the charge is the 2000V equipotential surface than the 3000V equipotential surface