College Physics
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Transcribed Image Text:6.For the following situations, consider moving a positive charge from very far away to the origin along the y-axis. For which situation would you do the most work?
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- Answer the following questionarrow_forward2. Four charges of equal magnitude are arranged at the corners of a square of side L as shown below. Point 'p' and 'S' are at the midpoint of one of the sides of the square. L Р +q S +q -q a) Find the magnitude and direction of the E-field at point 'p'. b) Find the electric potential at point 'p'. c) Find the work required to bring a point charge +Q from infinity to point 'p'. d). If the charge +Q is released from rest, label its position on the diagram above after moving a distance L/4. e) Find the speed of the charge +Q after moving a distance L/4.arrow_forwardTwo particles with charges +8e and -7e are initially very far apart (effectively an infinite distance apart). They are then fixed at positions that are 7.70 x 10-10 m apart. What is EPE final - EPE initial, which is the change in the electric potential energy? Number i Unitsarrow_forward
- 2) Students create a graph of potential difference V vs. charge Q stored for a capacitor. 24 Q/mC 18- (a) Determine the slope of the graph 12 (b) State the quantity represented by the slope of the graph. 2 6. 8. 10 12 (c) Determine the energy stored in the capacitor when it is charged to 6 V. p.d./V 4.arrow_forward123 p6arrow_forwardThee protons are each located at the corners of an equilateral triangle as shown in the figure below; one other proton is located between the two charges at the bottom. The total electric potential energy of the system of protons relative to infinity is most nearly proton 2.50 um - 5.00 jum A. 2.35 meV. B. 864 μον. C. 1.40 meV. D. 1.26 meV. E. 280 keV.arrow_forward
- Four identical charges (+1.7 µC each) are brought from infinity and fixed to a straight line. Each charge is 0.50 m from the next. Determine the electric potential energy of this group. Number .19941 eTextbook and Media Units J Que Nume Units Ques Multiparrow_forwardQuestion and diagram attached.arrow_forwardAs the distance between two charges increases, the electric potential energy of the two-charge system … a) always increases. b) always decreases. c) increases if the charges have the same sign. d) increases if the charges have opposite sign. e) is always negative.arrow_forward
- When a proton enters a region where an electric field is present, with the initial velocity ?⃗ v → will always move: a along the field line, in the positive direction of the line. b. along the field line, in the negative direction of the line. c. from the point with positive potential to the point with negative potential. d. from the point with negative potential to the point with positive potential. and. as described in both (a) and (c).arrow_forwards cm 15 cm Example 16.10 The electric potential at a certain point of space is 12 V. What is the electric potential energy of a -3 µC charge placed at that point? Example 16.11 If the work required to move a +0.35 C charge from point A to point B is +125 J, what is the potential difference between the two point?arrow_forwardQuestion What is the change in electric potential energy Up if a charge with a magnitude of 8.7 mC is moved through a potential difference of 7.64 MV? Select your answer. 66.5 × 10¹ J 665 × 10¹ J 6.65 x 10¹ J 0.665 × 104 Jarrow_forward
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