(D) - Draw the displacement, velocity and acceleration of simple harmonic motion as functions of time 4
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- The parallel-plate capacitor shown to the right is discharging so that the electric field between the plates decreases. Answer the questions below and explain your reasoning. The bulk of the credit will come from your explanation. What is the direction of the magnetic field at point P?Select all the true statements about electrostatics and magnetostatics. Inductors store energy in their magnetic fields Capacitors store energy in their electric fields The gradient of voltage points in the same direction as the E field Magnetic torque vectors point in the same direction as the forces that generate them. If you break a magnet into small enough pieces, you can observe a magnetic monopole (i.e. only the north or south 'pole') O Magnetic field lines always form closed loops.what is the B and the m variable in the repulsive force rule and how did we get it from coloumb's law i think?
- Rank the magnitudes of the electric field at points A, B, and C shown in Figure (greatest magnitude first). State reasoning to prove your answers.1) a) Describe the vector potential. b) Explain the revised part of the Ampere's Law c) Show the analogy between microscopic and macroscopic Ohm's Law. d) Explain the gauge condition(transformation) e) Describe the difference between conductive current and displacement current. f) Show and explain the contuniuty and conservation of chargesQ2) In your own words, explain the main differences between the electric potential and the scalar magnetic potential. UMA anatio notantioLot D
- A charged particle with mass m, charge q, kinetic energy K enters a magnetic field and then follows a circle of radius r as seen in the figure. Find the magnitude and direction of the magnetic field B. m, qA charged particle in a magnetic field will experience a nonzero magnetic force when what is true? O It is at rest. O It is moving in any way. O It is moving, but only parallel to the magnetic field. O It is moving such that its velocity has a nonzero component perpendicular to the magnetic field.Goal:The intent of this problem is to understand how electrostatic models can be used outside of electrical engineering. This basic model is used to understand chemical reactions, bonding, and other forms of atomic processes. It also shows you the strength of electrostatic forces in an atom. The Thomson model of a hydrogen atom is a sphere of positive charge with radius Ro with an electron (a point charge) at its center. The total positive charge equals the electronic charge q. What is the force of attraction between an electron at a distance R from the center of the sphere of positive charge? OOOO qR 4π€, Ro O q²R 3πEO q²R 4π€, Ro
- Electric fields and magnetic fields are... O parallel perpendicular not related linearIn short explain the dependency of the energy storage in the inductor on the dimension and the flux density. OR In short state the relation between the inductor energy and the dimension of condcutor and their flux density. Both are same question.Explain the hysteresis that can be found in materials due to force, magnetic and electrical subjection (give an example on two different materials below) show and explain the hysteresis curves for these materials. 1)High carbon steel 2)Cast iron