An electron moves with speed `2xx10^(5)` m`//`s along the positive x-direction in the presence of a magnetic induction `B=hati+4hatj-3hatk` (in Tesla). The magnitude of the force experinced by the electron in Newton's is (charge on the electron=`1.6xx10^(-19)`C)

An electron is moving with speed 2xx10^5 m//s along the positive x-direction in the presence of magnetic induction vecB = (hat i + 4 hat j - 3 hat k) T . The magnitude of the force experienced by the electron in N ( e = 1.6xx 10^(-19) C) ( vec F = q ( vec v xx vec B))

The number of electrons delivered at the cathode during electrolysis by a current of 2 ampere in 120 seconds is (charge on electron =1.6xx10^(-19)C) :-

A potential difference of 600 V is applied across the plates of a parallel plate condenser. The separation between the plates is 3 mm. An electron projected vertically, parallel to the plates, with a velocity of 2xx10^(6)m//s moves undeflected between the plates. Find the magnitude of the magnetic field (in T) in the region between the condenser plates. (Neglect the edge effects) square . (Charge of the electron =1.6xx10^(-19)C )

An electron moving with a velocity v along the positive x -axis approaches a circular current carrying loop as shown in the fig. the magnitude of magnetic force on electron at this instant is

An electron is constrained to move along the y- axis with a speed of 0.1 c (c is the speed of light) in the presence of electromagnetic wave, whose electric field is vec E = 30hat j sin (1.5 xx 10^7t - 5 xx 10^2x) V//m . The maximum magnetic force experienced by the electron will be : (given c = 3 xx 10^8 ms^(-1) and electron charge = 1.6 xx 10^(-19)C )

A charge q moves with a velocity 2m//s along x- axis in a unifrom magnetic field B=(hati+2hatj+3hatk) tesla.

The electron in hydrogen atom moves with a speed of 2.2xx10^(6)m//s in an orbit of radius 5.3xx10^(-11)cm . Find the magnetic moment of the orbiting electron.

An electron moving near an atomic nucleus has a speed of 6xx10^(6) +- 1% m//s . What is the uncertainty in its position?

The accelertion of a electron at a certain moment in a magnetic field B=2hati+3hatj+4hatk is a=xhati+hatj-hatk . The value of x is

At time t_(1) , an electron is sent along the positive direction of x-axis through both an electric field and a magnetic field, with directed parallel to the y-axis Graph gives the y-component E_(max) of the net force on the electron due to the two fields, as a function of th eelectron's speed V at time t_(1) . Assuming B_(x) = 0 , find magnitude of electric field in mN//C and find z component of magnetic field also (Use e = 1.6 xx 10^(-19) C )