In Millikan's oil drop experiment, a cha...

In Millikan's oil drop experiment, a charged oil drop of mass `3.2xx10^(-14)kg` is held stationary between two parallel plates 6mm apart by applying a potential difference of `1200 V` between them. How many excess electrons does the oil drop carry? Take `g =10ms^(-2)`

Similar Questions

Explore conceptually related problems

In Millikan oil drop experiment, a charged drop of mass 1.8 xx 10^(-14) kg is stationary between its plates. The distance between its plates is 0.90 cm and potential difference is 2.0 kilo volts. The number of electrons on the drop is

A charged drop of mass 3.2 xx 10^(-12) g floats between two horizontal parallel plates maintained at potential difference of 980 V and separation between the plates is 2 cm. The number of excess or deficient electrons on the drop is

An oil drop of mass 5xx10^(-15) kg carries a charge Q. The drop is stationary between two parallel metal plates 25 mm apart with a p.d. of 1000 V between them. Determine Q. Take g=10 ms^(-2) .

A small oil drop of mass 10^(-6)kg is hanging in at rest between two plates separated by1 mm having a potential difference of 500V. The charge on the drop is ____ (g = 10 ms^(-2))

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 the Milikan oil drop experiment the drop carries 10 electronic charges charge and a mass of 4.4 xx 10^(-15)kg . It is held almost stationary between two horizontal plate separated by 2cm. What is the potential between the plates?

In Millikan's oil drop experiment, a charged oil drop of mass `3.2xx10^(-14)kg` is held stationary between two parallel plates 6mm apart by applying a potential difference of `1200 V` between them. How many excess electrons does the oil drop carry? Take `g =10ms^(-2)`

Similar Questions

Recommended Questions