A beam of electron enter at right angle to an uniform electric field with a velocitgy `3 x 10^(7) m//s, E=1800 v//m` while travelling through a distance of `10cm` , the beam deflected by `2mm` then specific charge of electron is

An electron enters normally in a uniform electric field of intensity 3200V/m with a speed of 4 xx 10^(7) m//s . The electron covers a distance of 0.10m . Deflection of the electron is

An electron entering field normally with a velocity 4 xx 10^7 ms^(-1) travels a distance of 0.10 m in an electric field of intensity 3200 Vm^(-1) . What is the deviation from its path?

An electron entering field normally with a velocity 4 xx 10^7 ms^(-1) travels a distance of 0.10 m in an electric field of intensity 3200 Vm^(-1) . What is the deviation from its path?

An electron entering a magnetic field of 0.01 T with a velocity of 10^(7) m s^(-1) describes a circle of radius 0.6 cm. Calculate e/m (specific charge) of the electron.

calculate the force experinced by an electron when it enters a uniform magnetic field of strength 2 T with vleocity 0.2 xx 10^(8) m s^(-1) at right angles to the field. What kind of motion will it have in the magnetic field ? (Charge of electron 1.6 xx 10^(-19) coulomb.)

An electron of mass m and charge q is accelerated from rest in a uniform electric field of strength E. The velocity acquired by it as it travels a distance l is …..

An electron of mass m and charge q is accelerated from rest in a uniform electric field of strength E. The velocity acquired by it as it travels a distance l is

A steam of similar negatively charged particals enters an electrical field normal to the electric lines of force with a velocity of 3xx10^7 m//s . The electric intensity is 1800 V/m . Then the specific charge value of in C Kg^(-1) is

A beam of protons enters a uniform magnetic field of 0.3T with velocity of 4xx10^5m//s in a direction making an angle of 60^(@) with the direction of magnetic field. The path of motion of the particle will be