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Design uniformly charged spherical object and a spherical Gaussian surface that is concentric to it.
- Choose the charge on the object and the radii of the object and the Gaussian surface
- Use direct integration to calculate the flux through the Gaussian surface
- Confirm value using Gauss’s Law
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- Review | Constants A uniformly charged ball of radius a and charge −Q is at the center of a hollow metal shell with inner radius b and outer radius c. The hollow sphere has net charge +2Q. A - Determine the electric field strength in the region r≤ar≤a. Give your answer as a multiple of Q/ε0. Express your answer in terms of some or all of the variables a, b, c, r, and the constant π. B - Determine the electric field strength in the region a<r<b. Give your answer as a multiple of Q/ε0. Express your answer in terms of some or all of the variables a, b, c, r, and the constant π. C- Determine the electric field strength in the region b≤r≤c. Give your answer as a multiple of Q/ε0. Express your answer in terms of some or all of the variables a, b, c, r, and the constant π. D- Determine the electric field strength in the region c<rc<r. Give your answer as a multiple of Q/ε0. Express your answer in terms of some or all of the variables a, b, c, r, and…Current Attempt in Progress Two spherical shells have a common center. A-2.50 x 106 C charge is spread uniformly over the inner shell, which has a radius of 0.050 m. A +4.00 x 106 C charge is spread uniformly over the outer shell, which has a radius of 0.15 m. Find the magnitude and direction of the electric field at a distance (measured from the common center) of (a) 0.20 m, E = i (b) 0.10 m, E = E C N B V C Ni BI (c) 0.025 m. E = i eTextbook and Media Q Nu Bla5
- Create a uniformly charged spherical object and a spherical Gaussian surface that concentric to it. 1) Choose the charge on thr object and the radii of the object and the Gaussian surface 2) Use direct integration to calculate the flux through the Gaussian surface 3) Confirm value using Gauss’s LawReview Constants A point charge qi axis at z = 220 m, and a second point charge q2 -5.95 nC is on the y-axis at y = 1.20 m 4.45 nC is located on the x- Part A What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with radius ri = 0 540 m ? ΑΣφ N-m2/C Submit Request Answer Part B What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with radius r2 = 1.65 m ? ? N- m²/C Submit Request Answer Part C What is the total electric flux due to these two point charges through a spherical surface centered at the origin and with radius r3 = 2.50 m ? ΑΣφ N. m2/C Submit Request Answer Next> Provide FeedbackQ9
- A group of four charges and four Gaussian surfaces are shown in the figure. The charges have values q1 = 5 nC, q2 = -5 nC, q3 = 16 nC, and q4 = -19 nC. a.) What is the flux through the first surface, S1, in Nm2/C? b.) What is the flux through the second surface, S2, in Nm2/C? c.) What is the flux through the third surface, S3, in Nm2/C? d.) What is the flux through the fourth surface, S4, in Nm2/C?What is the sign of the charge is inside the Gaussian surface shown in the figure below! Gaussian - Surface Choose from positive / negative/zero