How do you find the direction of the electric field inside of a moving conductor? How...

What happen to the electric field inside the metal conductor? How is the electric field affected...

What happen to the electric field inside the metal conductor? How is the electric field affected by the presence of the floating conductor?

The direction of force on a moving electric charge in a magnetic field is (Select all...

The direction of force on a moving electric charge in a magnetic field is (Select all that apply) in the direction of the magnetic field in the directions of the charge perpendicular to the magnetic field perpendicular to the direction of the motion of the charge none of the above

How do you find the direction of the electric field and force? and what is the...

How do you find the direction of the electric field and force? and what is the relationship between the direction of each?

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform...

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform magnetic field (B0 field in the x-direction). (i) What is the force acting on the charge particle? Find equations of motion for the charge particle. (ii) Assume that initially the charge is placed the origin and has initial velocity (E0/2B0) in the y-direction. Determine position and velocity of the charge particle as a function of time. (iii) Find the trajectory of the particle and...

4.If, for a given conductor, the local surface charge density is sigma, what is the direction...

4.If, for a given conductor, the local surface charge density is sigma, what is the direction and magnitude of the electric field in that region? What’s the value of the electric field inside a conductor and why? Where is the excess stationary electric charge located for a conductor and why?

The direction of the magnetic force on an electron moving through a magnetic field is the...

The direction of the magnetic force on an electron moving through a magnetic field is the same as the direction of the vector formed by taking the cross product of the velocity with the magnetic field (v x B).            True/ False The magnetic field is also referred to as the magnetic flux _____________ [one word]. Consider a particle moving through a magnetic field. If the magnetic field doubles and the velocity of the particle halves, the magnetic force will:...

The purpose of this problem is to see, roughly, how fast the electric field inside a...

The purpose of this problem is to see, roughly, how fast the electric field inside a conductor reaches zero (i.e., electrostatic equilibrium) if the conductor is placed in an electric field. a) Use ? = ??⃗ , where ? is the conductivity of the conductor, Gauss’s law ?⃗ ∙ ?⃗ = ?/?0 , and the continuity equation ?⃗ ∙ ? + ?? ?? = 0, to show that ??⃗ ?? = −(?????)?⃗ b) Determine the time constant c) Find the...

25. Around any electron in motion we have a. electric field. b. magnetic field. c. both...

25. Around any electron in motion we have a. electric field. b. magnetic field. c. both fields.    26. The lines of magnetic field generated by a current passing: a) are in the direction of the current b) are opposite to the direction of the current c) leave the cable radially OR are concentric circles around the cable 27. A field____can act on a moving electric charge. a. electric b. magnetic. c. both of them. 28. A magnetic field does...

the electric field produced by a uniform sphere of charge (both inside and outside the sphere)....

the electric field produced by a uniform sphere of charge (both inside and outside the sphere). We inherently assumed the sphere was made of a dielectric material. How would the electric field be different if the sphere were a conductor with the same total net charge (q)? Your answer does not need to involve an equation. Instead, provide a concise explanation for why the electric field would be different or the same (both inside and outside the sphere).

1. Answer all parts for the theory. a. The magnetic field B acting upon a charge...

1. Answer all parts for the theory. a. The magnetic field B acting upon a charge q moving at velocity v gives rise to a force in direction perpendicular to ____________________. The velocity v The magnetic field B and the charge q The magnetic field B The velocity v and the magnetic field B b. Having a beam of electrons moving horizontally to the right side of the paper, what is the direction of the magnetic force if we applied...