The figure below shows three charged spheres arranged along the y axis. (Assume q1 = 2.90 μC and 92= 3.95 μC. Express your answer in vector form.) 91 75.0 cm -4.80 μC A 22.0 cm ✓ 92 (a) What is the electric field at x = 0, y = 2.80 m? E= N/C (b) What is the electric field at x = 2.80 m, y = 0? E= N/C
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- A sphere surrounds three charged particles of charges q1 = 4.16×10-10 C, q2 = 9.06×10-11 C, and q3 = 5.74×10-10 C. Use Gauss's Law to determine the total electric flux (Φ) passing through the surface. Your answer should be in N·m2/C.The electric flux through the surface shown in the figure is 17 Nm^2/C. What is the electric field strength? Express your answer to two significant figures and include the appropriate unitsA point charge q₁ = 3.45 nC is located on the x- axis at x = 2.00 m, and a second point charge 92 = -5.90 nC is on the y-axis at y = 1.25 m.
- A flat surface of area 3.10 m² is rotated in a uniform electric field of magnitude E = 6.65 x 105 N/C. (a) Determine the electric flux through this area when the electric field is perpendicular to the surface. N. m²/c (b) Determine the electric flux through this area when the electric field is parallel to the surface. N. m²/cThe figure below shows a uniform electric field of magnitude E = 420 N/C making an angle of o = 66.5° with a flat surface of area A = 3.20 m2. What is the magnitude of the electric flux through this surface (in N · m2/C)? E N. m2/cA uniformly charged disk of radius R=25 cm carries a total charge of Q=2 μC. R P 1 Find the magnitude of the electric field E created by the disk at the point P located at distance 40 cm from the center of the disk. E = [N/C] 2. What is the direction of the electric field E created by the disk at point P. Direction: 3. Write the expression of the electric filed E created by the disk at point P. Ē =< [N/C] 4. Find the magnitude of the electric field E created by the disk at the point P located at distance 8 m from the
- Please help, thank you!Find the flux in N.m².C-1 of a constant electric field E = (5.3180x10^3) i + (-5.514x10^3)j + (-1.5880x10^3) k N/C, passing through an area defined by the area vector A = (-4.7990x10^0) i + (-7.69x10^0) j + (4.2900x10^-1) k m².A charge of –25 µC is distributed uniformly over the surface of a spherical conductor of radius 11.0 cm. Determine the electric field (in N/C) due to this charge at the following distances from the center of the sphere. (Enter the radial component of the electric field.) (a) 7.0 cm E - (0 = (b) 8.0 cm E = (c) 22.0 cm E = X N/C f
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