2) What is the magnetic field B if the magnetic vector potential A is given by:...
Given a vector potential field configuration, A, (F) (xy)ỹ a) Calculate the magnetic field, B(F) b) Calculate V.A,(F) B(F), as in (a), but satisfies V.A,(f) = 0 c) Construct a vector potential, A2 (f), that produces the same d) Show by direct calculation that A,(r) produces the same as in part (a)
part (a): express the magnetic field vector B created at the center O in terms of the current I, the radius vector R, and the length element vector ds part (b): What the direction of the magnetic field at point O? right, left, out of screen, downward, upward, or into the screen? part (c): Express the magnitude of the magnetic field at point O in terms of I and R. part (d): Calculate the numerical value of B, in tesla...
1. Given the magnetic field B 2 (a) Find the current density that produces it. (b) Check if the constant vector potential A = found current density. can be produced by the
4. Total: 34 pts] Suppose the vector potential in a region of space is given by: 2 2 a) [4 pts| What are the units of the given constants a and Ao? b) [10 ptsj Determine the magnetic field from this vector potential and then determine the current density J from the magnetic field. (Eq. (3) is given in Cartesian coordinates, but you may use another coordinate system, if that would make the calculation easier. Briefly, but clearly justify your...
(a) Describe how the concept of "magnetic vector potential" may be introduced by considering the Helmholtz the orem of vector fields. What are and would their existence have any impact on the application of the vector potential? 4. magnetic monopoles [6] why the electric field is given in general by (b) Explain, as fully as you can, [7] дt (c) Show that the flux threading a path P is related to the vector potential A, by А. di, and then...
task: (a) Check that it meets the vector potential condition , where B is a constant magnetic field. (b) Let A be the vector potential given under (a). Show that he is a member occurring in the Hamilotonian for a particle in the EM field equal to the expression for the interaction of the magnetic moment μL due to the orbital angular momentum with the magnetic field B where q is the charge and a m is the mass of...
A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of the particle is perpendicular to the magnetic field. Which of the following particle properties will change while in the magnetic field? Its speed. Its velocity Its kinetic energy O All of the above (A, B, and C). None of the above (not A, B, or C). A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of...
A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of the particle is perpendicular to the magnetic field. Which of the following particle properties will change while in the magnetic field? Its speed. Its velocity. Its kinetic energy. All of the above (A, B, and C). None of the above (not A, B, or C).
A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of the particle is perpendicular to the magnetic field. Which of the following particle properties will change while in the magnetic field? Its speed. Its velocity Its kinetic energy. All of the above (A, B, and C). O None of the above (not A, B, or C).
A charged particle traveling at a given speed enters a uniform magnetic field. The velocity vector of the particle is perpendicular to the magnetic field. Which of the following particle properties will change while in the magnetic field? Its speed. Its velocity. Its kinetic energy. O All of the above (A, B, and C). None of the above (not A, B, or C).