Q9: Determine the electric field on the surface of a sphere of radius 0.33 m if the charge q=+ 10 µC are contained within.
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Q: MIT NOTES ASK TOUR TEACHER PRACTICE ANOTHER A uniformly charged spherical shell has inner and outer…
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Q: Q3/ Two-point charges Q1= - 5 mC and Q2= +50 µC are separated by a distance of 15 cm. the electric…
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Q: 13. A ball (spherical shape) of radius 7 cm carries a charge q = 4 mC distributed uniformly…
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Q: QUESTION 1 A dipole is formed by separating a +200 nC and -200 nC charge a distance of 44 mm.…
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Q: 1. A particle with charge q₁ = +5.1 μC is located at (x=0,y=0). A second particle with charge q2 =…
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Q: Sphere A has a charge of 5nC and a radius of 1.5m. Sphere B has a charge of -2nC and a radius of 4m.…
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Q: Problem 4: Ametal sphere of radius 0.19 m carries an electric charge of+0.41 µC, which is spread…
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Q: A particle with charge q₁ = +4.5 μC is located at (x=0,y=0). A second particle with charge q2 = -8.6…
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Q: You charge a piece of aluminum foil (mass-7:37 g) by touching it to a charged rod. The charged rod…
A: Given : Magnitude of charge = q= 10μC=10×10-6C Mass of aluminum foil =m= 7.37g =7.37×10-3 kg
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A: q = 60 nCradius (r) of the semi circle = 9.5 m
Q: The 4 µC charge is located at the origin. Determine magnitude and direction of electric field on the…
A: charge (q) = 4μCposition of charge = origin = (0,0) m a) at y = 6 m
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- y A Point Charge Q₁ = -0.1 μC is located at the origin. A. Find the Electric Field (magnitude and direction) at point P located at x = 8 m and y = 6 m. B. Find the value of Point Charge Q₂ located at x = 8 m and y = 0 m and Point Charge Q3 located at x = 0 m and y = 6 m that will cause the Electric Field to be zero at point P. C. Given Point Charges Q₁, Q2 and Q3 as determined above, Find the Electrostatic Potential at point P.Three point charges (Q₁=-5 µC, Q2=-2 µC, and Q3=-5 µC) are on the y-axis at y₁= 8 cm, y₂=0 cm, and y3=-8 cm, respectively. What is the magnitude and direction of the electric field from these charges at point P located on the x-axis at x=6 cm?Pls help ASAP and pls do nicely.
- *Chapter 23, Problem 011 GO The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.3 m, with one corner at x1 = 4.6 m,Y1 = 4.7 m. The cube lies in a region where the electric field vector is given by E = -2.0 i -3.8 y2j +2.4 k N/C, with y in meters. What is the net charge contained by the cube? Number *1 UnitsE7BP42
- P6E4Four point charges, q1 = 8.2 uC, q2 = -7.8 uC, q3 = 1.7 uC and q4 = -5.9 uC, are arranged in a square with side lengths L = 7.5 cm. What is the magnitude of the electric field at the centre of the square?In the figure, the four particles are fixed in place and have charges q, = q2= 5e, q3 = 3e, and q4 = -12e (e = 1.6 × 10-19 C). Distance d= 5.0 µum. What is the magnitude of the net electric field at point P due to the particles? 4 Give your answer in N/C. (ke = /4ne, = 9.0 × 10° Nm²/C²)
- What should be the direction and magnitude of the vertical electric field that will balance the weight of a plastic sphere with the charge Q= +1.5 nC and mass m= 1.8 g? 3.2 x 10^5 N/C positive y-direction 1.2 x 10^6 N/C in +y-direction 1.2 x 10^6 N/C in negative y-direction 3.2 x 10^5 N/C in negative y-directionThree charges are on the plane (x,y) as reported on the picture. The two charges q on the x-axis are equal and at distance of 8 cm from the origin. The charge on the y-axis is negative and 3q and it is at 16 cm from the origin. Determine the x component of the electric field at the point P (0,5) cm. q P -39 qa) At what distance from a particle with a charge of 6.00 nC does the electric field of that charge have a magnitude of 4 N/C? The distance =