Two charges q = +5.4 μC are fixed a distance d = 2.4 cm apart (see the figure). (a) With V = 0 at infinity, what is the electric potential at point C? (b) You bring a third charge q = +5.4 µC from infinity to C. How much work must you do? (c) What is the potential energy U of the three-charge configuration when the third charge is in place? (a) Number i Units + 1/2 9 (b) Number i Units (c) Number i Units d/2
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- Four objects with positive charges of +1.0 x 10-5 C are placed at the four vertices of a45° rhombus with sides of length 2.0 m.(a) Calculate the electric potential at the centre of the rhombus (this is located where thediagonals intersect). b) Calculate the electric potential energy a charge of +3.0 x 10-5 C would have if placed atthe centre of the rhombus.A charge Q = 85 nC is placed at the origin of the (x,y)-plane shown below. Find the electric potential at points A and B if the distances are a = 29.9 cm and b = 16.3 cm. y b B Q a The potential at A, VA = A X Units Select an answer ✓ The potential at B, VB = How much work is required to move an electron from point A to point B? The work, WA B = Units Select an answer ✓ Units Select an answer ✓A proton, an electron, and an alpha particle (of charge +2e) form an equilateral triangle of side length 3.77×10-10 m. What is the electric potential energy of the three-particle system?
- The linear non-uniform charge distribution given by lamda = bx, where b is a constant, lies along the axis from x = 0 to x = 0.2 m. If b = 20 nC/m² and V = 0 at infinity, what is the electric potential at (a) the origin and (b) the point y = 0.15 m on the y-axis?Two charges q = +1.2 µC are fixed a distance d-2.6 cm apart (see the figure). (a) With V-0 at infinity, what is the electric potential at point C? (b) You bring a third charge q- +1.2 pc from infinity to C. How much work must you do? (c) What is the potential energy U of the three-charge configuration when the third charge is in place? (a) Number (b) Number (c) Number Units Units Units 4/2Part (a) Find the electric potential Vp at point P, in volts. Assume the potential is zero at infinity. Part (b) How much work W, in joules, would you have to do to bring the third charge, 93, from very far away to the point P? Part (c) What is the total potential energy U, in joules, of the final configuration of three charges?