(a)A velocity selector consists of electric and magnetic fields described by the expressions E = E and B = B ĵ, with B = 13.0 mT. Find the value of E (in kV/m) such that a 740 eV electron moving in the negative x-direction is undeflected. kV/m(b)What If? For the value of E found in part (a), what would the kinetic energy of a proton have to be (in MeV) for it to move undeflected in the negative x-direction?

A positively charged particle (charge q, mass m) is moving with constant velocity (of magnitude v0) in a region of space. In that region, a uniform electric field (of strength E) is applied for some time such that particle deviates by 60∘ and is moving twice as fast. The time for which the field acts is xmv0qE. Find the value of x2.

A proton moving with a constant velocity passes through a region of space without any change in its velocity. If   and  represent the electric and magnetic fields respectively,. then this region of space may have :-(i) E = 0, B = 0     (ii) E = 0, B ≠ 0(iii) E ≠ 0, B = 0    (iv) E ≠ 0, B ≠ 0Correct statements are –i, ii and iiiii, iii and ivi, ii and iv All

If an electron is travelling horizontally towards east. A magnetic field in vertically downward direction exerts a force on the electron along*1 pointeastwestnorthsouthIf a charged particle is moving along a magnetic field line. The magnetic force on the particle is*1 pointalong its velocityopposite to its velocityperpendicular to its velocityZeroA magnetic field exerts no force on*1 pointa stationary electric chargea magnetan electric charge moving perpendicular to its directiona non-magnetized iron barAn electron beam enters a magnetic field at right angles to it as shown in the figure. The direction of force acting on the electron beam will be*1 pointTo the leftto the rightinto the planeout of the plane

A particle with positive charge q = 2.08 10-18 C moves with a velocity v = (4î + 4ĵ − ) m/s through a region where both a uniform magnetic field and a uniform electric field exist.(a)Calculate the total force on the moving particle, taking B = (4î + 3ĵ + ) T and E = (3î − ĵ − 2) V/m. (Give your answers in N for each component.)Fx = NFy = NFz = N(b)What angle does the force vector make with the positive x-axis? (Give your answer in degrees counterclockwise from the +x-axis.) ° counterclockwise from the +x-axis(c)What If? For what vector electric field would the total force on the particle be zero? (Give your answers in V/m for each component.)Ex = V/mEy = V/mEz = V/m

An Electron is accelerated to the right from rest across a potential difference of 9 volts then encounters a region of uniform electric field of strength 5.7 N/C directed to the right. (a) How far into the region with the electric field is the electron able to travel before it is brought to a halt? (7 marks) (b) What is the electric potential at the point the electron stops (relative to the point where the electron enters the field)? (3 marks)