In Millikan's oil drop experiment, an oil drop with density `1.5 g cm^(-3)` and a radius of `10 xx 10^(-7)` m is supported by an external electric field. Calculate the required electric field strength if charge on the drop is 15e.

In Millikan's oil drop experiment, an oil drop mass 60 xx 10^(-6) kg is balanced by an electric field of 10^(6) V//m . The charge in coulomb on the drop, assuming g = 10 m//s^(2) is

In a Millikan's oil drop experiment the charge on an oil drop is calculated to be 16.35 xx 10^(-19) C . The number of excess electrons on the drop is

A glycerin drop of mass 10^(-3) g with charge equal to 2e is balanced in an external electric field. Calculate the strength of electric field, if the field is sufficient enough to hold the drop.

A charged water drop of weight 4 xx 10^(-18) kg and charge 1.6 xx 10^(-19) C is stable in an electric field . What is the intensity of electric field

In Millikan's oil drop experiment, the charge on a oil drop was found due to an experimental error, to be 8.88 xx 10^(-18)C . Why can't such a quantity of charge be present on the oil drop ? Explain. (Charge on an electron is 1.6 xx 10^(-19)C )

In an oil drop experiment, the charges on oil drops were found as 1.5 xx 10^(-15), 3 xx 10^(-15), 4.5 xx 10^(-15), 6.0 xx 10^(-15) . Calculate the magnitude of the charge on the electron.

In a Millikan-type oil-drop experiment, the plates are 8 mm apart. An oil drop is found to remain at rest when the upper plate is at a potential 135 V higher than that of the lower one. When the electric field is switched off, the drop is found to fall a distance of 2.0 mm in 36 seconds with a uniform speed. Find (a) the charge on the drop and (b) the number of electrons attached to this drop. Density of oil = 880 kg m^(-3) and coefficient of viscosity of air = 180 mupoise .

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.

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: