An electron files into a homogeneous magnetic field of `10 ^(-3)` perpendicular to the force lines. The velocity of the electron is `v = 4 xx 10 ^(7)ms ^(-1)` what is the tangential acceleration of electron in the magnetic field ?

The acceleration of any electron due to the magnetic fields is

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is

An electron is moving vertically upwards in the uniform magnetic field of the earth. The velocity of the electron is 2.0 xx 10^(6) m/s and the horizontal component of the earth.s magnetic field is 0.32 xx 10^(-4)T. Obtain the magnitude and direction of the force on the electron.

An electron moving towards the east enters a magnetic field directed towards the north. The force on the electron will be directed

If the uncertainty in velocity of electron is 1*10^7 ms^-1 then the uncertainty in position of electron will be (mass of an electron is 9 *10^-28 g)

An electron accelerated by a potential difference V= 3 volt first enters into a uniform electric field of a parallel plate capacitor whose plates extend over a length l= 6 cm in the direction of initial velocity. The electric field is normal to the direction of initial velocity and its strength varies with time as E= alpha t, where alpha= 3600 V m^-1 s^-1. Then the electron enters into a uniform magnetic field of induction B = pi xx 10^-9 T. Direction of magnetic field is same as that of the electric field. Calculate pitch of helical path traced by the electron in the magnetic field. (Mass of electron, m = 9 xx 10^-31 kg )

Calculate the wavelength of an electron moving with a velocity of 2.05 xx 10^7 ms^(-1) .

If an electron is moving with velocity v produces a magnetic field vecB , then

An electron enters a region where magnetic field (B) and electric field (E ) are mutually perpendicular, then

Calculate the wavelength of an electron moving with a velocity of 2. 05 xx 10^7 ms^(-1) .