An electron moving along the x-axis with...

An electron moving along the x-axis with an initial energy of `100 eV` enters a region of magnetic field `vec(B) = (1.5 xx 10^(-3) T) hat (k)` at `S` (see figure). The field extends between `x=0` and `x=2 cm`. The electron is detected at the point `Q` on a screen placed `8` cm away from the point `S`. The distance `d` between `P` and `Q` (on the screen) is :
(electron's charge `= 1.6 xx 10^(-19) C`, mass of electron `= 9.1 xx 10^(-31) kg`).
.

Similar Questions

Explore conceptually related problems

An electron is moving along X-axis in a magnetic field acting along Y-axis. What is the direction of magnetic field acting on it?

An electron travelling with a spped u along the positive x-axis enters into a region of magnetic field where B= - B_(0)hat (K) (xgt0) . It comes out of the region with speed v then

An electron moving with a kinetic energy of 1.5 xx 10^(3) eV enters in a region of uniform magnetic field of induction 4 xx 10^(-3) Wb//m^(2) at right angles to the direction of motion of the electron . The radius of circular path of the electron in the magnetic field is

An electron enters a region of magnetic field perpendicularly with a speed of 3xx10^7m//s . Strength of magnetic field is 6xx10^-4 T. Frequency and energy of electron respectively are

An electron moves along x direction. It enters into a region of uniform magnetic field B directed along -z direction as shown in the figure. Draw the shape of trajectory followed by the electron after entering the field.

An electron of charge -e , mass m, enters a uniform magnetic field vec(B)= B hat(i) with an initial velocity vec(v) = v_(x) hat(i) + v_(y) hat(j) . What is the velocity of the electron after a time interval of t seconds?

Similar Questions

Recommended Questions