3.2 Given the vector field V = y(-1) + 2x ĵ. 3.2.1 Make a rough sketch of the vector field. 3.2.2 Determine the divergence of this field. 3.2.3 Is the field a source field or sink field? Give reason for your answer.
Q: 1. Rectangle of area A with a uniform electric field Ē oriented at an angle of 15° with respect to…
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A: Flux flux is something that is constantly changing and passes through any cross-sectional area.
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- Calculate net at M. ve choge Define the term at a point. expl of the electrostatic force acting on it IS 1.1.3 Draw a labelled free-body diagram for sphere T. 1.1.4 Calculate the magnitude of the tension in the string. Two small charged spheres. A and B on insulated stands, with charges +2 x10° C and -4 x105 C respectively, are placed 0,4 m apart, as shown in the diagram below. M is the midpoint between spheres A and B. +2 x105 C 0,4 m -4 x10-5 C A M. 1.2.1 1.2.2 Placed at hint reservedProblem 1. g>0 A charge q > 0 is placed at a distance d above a) the r-y plane. What is the electric flux o through a surface S, infinite in extent, that coincides with the x-y plane? The normal vector for S points along -z, î = -k. (Hint: You can find the answer using Gauss's law, without evaluating any integrals.) right Princeton University The remaining parts of this problem have a uniformly charged (charge density p) insulating spherical shell of outer radius R and inner radius R/2 centered at the origin. b) ( Find Ë(7) everywhere, that is, at r R. Indicate both magnitude and direction. 2please answer all parts
- Please check my work for 1a and 1b please while also aiding me in answering 1c. k=9x10^9 Nm^2/C^2 1a.What is the net electric force on charge Q3 due to charges Q1 and Q2? (Direction and Magnitude) 1b.What is the net electric force on charge Q2 due to charges Q1 and Q3? (Direction and Magnitude) 1a.What is the net electric force on Point P due to charges Q1, Q2, and Q3? (Direction and Magnitude)TYPEWRITTEN ONLY PLEASE UPVOTE. DOWNVOTE FOR HANDWRITTEN. DO NOT ANSWER IF YOU ALREADY ANSWERED THIS. THE BIG NUMBER IN THE SIDE IS FOR NUMBERING.A charge of 22.2 pC is distributed uniformly on a spherical surface (r1 = 2.0 cm), and a second charge of-9.2 pC is distributed uniformly on a concentric thin spherical surface (r2 = 4.0 cm). Determine the magnitude of the electric field ( in units of N/C) at a distance of 5.0 cm from the center of the two surfaces. Select one: O A. 3.90 O B. 46.80 OC. 32.50 OD. 59.80 OE. 113.04
- All go together.Part B What is the maximum mass mmax that would prevent the particle from falling indefinitely? Express your answer in terms of some or all of the variables q, o, R, the acceleration due to gravity g, and the electric constant €0. mmax = Submit ΑΣΦ Request Answer Consider an infinite flat sheet with positive charge density in which a circular hole of radius R has been cut out. The sheet lies in the zy-plane with the origin at the center of the hole. The sheet is parallel to the ground, so that the positive z-axis describes the "upward" direction. If a particle of mass m and negative charge - sits at rest at the center of the hole and is released, the particle, constrained to the z-axis, begins to fall. As it drops farther beneath the sheet, the upward electric force increases. For a sufficiently low value of m, the upward electrical attraction eventually exceeds the particle's weight and the particle will slow, come to a stop, and then rise back to its original position. This sequence…