In a region of space, a uniform magnetic field B exists in the x-direction. An electron is fired from the origin with its initial velocity u making an angle `alpha` with the y direction in the y-z plane. In the subsequent motion of the electron,

In a region of space, a uniform magnetic field B exists in the y direction. A proton is fired from the origin, with its initial velocity v making a small angle alpha with the y direction in the yz plane. In the subsequent motion of the proton,

A uniform electric field and a uniform magneitc field exist in a region in the same direction An electron is projected with velocity pointed in the same direction the electron will

In a region of space, a uniform magnetic field B is along positive x-axis. Electrons are ernit.u.d from the origin with speed u at different, angles. Show that the paraxial electrons are refocused on the x-axis at a distance (2pimv)/(Be) . Here, m is the mass of electron and e the charge on it.

A portion is fired from origin with velocity vec(v) = v_(0) hat(j)+ v_(0) hat(k) in a uniform magnetic field vec(B) = B_(0) hat(j) . In the subsequent motion of the proton

Uniform electric and magnetic fields are produced in the same direction. An electron moves in such a way that its velocity remains in the direction of electric field. The electron will-

A charged particle enters in a magnetic field B with its initial velocity making an angle of 45° with B. The path of the particle will be

A proton and an electron are projected into a region of uniform magnetic field in a direction perpendicular to the field. If they have the same initial velocities then

In a certain region of space a uniform and constant electric field and a magnetic field parallel to each other are present. A proton is fired from a point A in the field with speed V=4xx10^(4)m//s at an angle of alpha with the field direction. The proton reaches a point B in the field where its velocity makes an angle beta with the field direction. If (sinalpha)/(sinbeta)=sqrt3. Find the electric potential difference between the points A and B. Take mp (mass of proton) =1.6xx10^(-27) kg and e (magnitude of electronic charge) =1.6xx10^(-19) C.

If an electron enters a magnetic field with its velocity pointing in the same direction as the magnetic field, then

A uniform but increasing with time magnetic field exists in as cylindrical region. The direction of force on an electron at P as