In Milikan's experiment , an oil drop having charge q, mass m , gets accelerated by applying a potential difference V in between two plates separated by a distance 'd' . The acceleration is

In Millikan's experiment, an oil drop having charge q gets stationary on applying a potential difference V in between two plates separated by a distance 'd'. The weight of the drop is

In Millikan's oil drop experiment an oil drop carrying a charge Q is held stationary by a potential difference 2400 V between the plates. To keep a drop of half the radius stationary the potential difference had to be made 600 V . What is the charge on the second drop ?

An electron of charge e and mass m is accelerated from rest by a potential difference V . the de Broglie wavelength is

In a Millikan's oil drop experiment, an oil drop of mass 4.9xx10^(-14)kg is balanced by a potential difference of 4000 V between two plates which are 8 mm apart. Find the number of elementary charges on the drop.

A particle of mass 'm' and charge 'q' is accelerated through a potential difference of V volt, its energy will be

A particle initially at rest having charge q coulomb, & mass m kg is accelerated by a potential difference of V volts. What would be its K.E. & de broglie wavelength respectively after acceleration.

An electron of mass m and charge e is accelerated from rest through a potential difference V in vacuum. The final speed of the electron will be

When potential difference of 9V is applied between the two plates, electron accelerate between the plates with velocity

In Millikan's oil drop experiment an oil drop of radius r and change Q is held in equilibrium between the plates of a charged parallel plate capacitor when the potential change is V . To keep a drop radius 2r and with a change 2Q is equilibriu between the plates the potential difference V' required is: