2. Figure shows four charge particles produce a square . Here q= 1.6X10^(-19) and a=10cm. (a) calculate the force with direction on (i) -q due to 2q (ii) -q due to 3q * a -q 2q a a 34 a -2q
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(b) Find the individual electric fields of the charges at the center of the square? Find the net electric potential of the charges at the center of the square?
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- Two charged point-like objects are located on the x-axis. The point-like object with charge q₁ = 3.90 μC is located at x₁ = 1.25 cm and the point-like object with charge q₂ = -2.12 μC is located at x₂ = -1.80 cm. (a) Determine the total electric potential (in V) at the origin. V (b) Determine the total electric potential (in V) at the point with coordinates (0, 1.50 cm). V Need Help? Read ItSuppose you have a positively charged conducting sphere. Where, relative to the center of the sphere, is the electric potential the lowest value? Where is it the highest value?There is a cube with sides of length l with a charge Q placed at each corner. (a) What is the potential at the center of the cube? (b) What is the potential at one of the corners due to the other seven charges? (c) What is the total potential energy of the system? (think about work required to assemble the system)
- Consider a point charge q = 0.81 µC, point A at distance d₁ = 1.9 m from q, and point B at distance d₂ = 0.93 m. (a) If A and B are diametrically opposite each other, as in Figure (a), what is the electric potential difference VA - VB? (b) What is that electric potential difference if A and B are located as in Figure (b)? (a) Number (b) Number i B (a) Units Units < d₁ (b) AWhy is it easier to determine the net electric potential at a location in space near several point charges than it is to determine the electric field at the same location?Consider a point charge q = 1.3 µC, point A at distance d₁ = 2.0 m from q, and point B at distance d₂ = 1.3 m. (a) If A and B are diametrically opposite each other, as in Figure (a), what is the electric potential difference VA - VB? (b) What is that electric potential difference if A and B are located as in Figure (b)? B di B A (a) (b)
- Consider a point charge q = 1.5 µC, point A at distance d = 2.9 m from q, and point B at distance d2 = 1.7 m. (a) If A and B are diametrically opposite each other, as in Figure (a), what is the electric potential difference VA - VB? (b) What is that electric potential difference if A and B are located as in Figure (b)? dz dy (a) (b)Consider a point charge q = 0.87 μC, point A at distance d₁ = 2.5 m from q, and point B at distance d2 = 1.4 m. (a) If A and B are diametrically opposite each other, as in Figure (a), what is the electric potential difference VA - VB? (b) What is that electric potential difference if A and B are located as in Figure (b)? (a) Number M. i (b) Number i B -d₂4 9 (a) Units Units -d- A B de dj- (b) 4In the figure, the particles have charges q1 = q2 = 10.5 nC, q3 =2q4 = 12.6nC, and distance a = 4.00 cm. (a) What is the magnitude and direction ofthe net electric field at the point P? (b) How much work is required to set upthe four-charge configuration of the figure? (c) What is the potential at pointP due to the four-charge particles? (d) What is the potential energy and themagnitude and direction of the acceleration for a proton placed at point P?(e) what is the number of excess elementary charges for each particle?