In Milikan’s experiment, static electric charge on the oil drops has been obtained by shining X-rays. If the static electric charge on the oil drop is `–1.282 xx10^(–18)C`, calculate the number of electrons present on it.

In Milikan's experiment, static electrons charge on the oil drops has been obtained by shining X-rays. If the static electric charge on the oil drop is -1.282xx10^(-18)C , calculate the number of electrons present on it.

In Millikan's experiment, static electric charge on the medias has been obtained by shining X-rays. if the static electric charge on the oil drop is -1.282 xx 10^(-18)C . Calculate the number of electrons present in it.

A certain particle carries 2.5xx10^(-16) C of static electric charge. Calculate the number of electrons present in it.

An oil drop has 6.39 xx 10^(-19)C charge .How many electrons does this oil drop has ?

A particle has a charge of +10^(-12)C . (a) Does it contain more or less number of electrons as compared to the netual state? (b) Calculate the number of electrons transferred to provide this charge.

An ebonite rod is rubbed with fur and is found to have a charge of -3.2xx10^(-8)C on it (a) Calculate the number of electrons transferred, (b) What is the charge of rubbing?

There are n electrons of charge on a drop of oil of density rho . It is in equilibrium in an electric field E. Then radius of drop is

The electric field that can balance a charged particle of mass 3.2xx10^(-27) kg is (Given that the charge on the particle is 1.6xx10^(-19)C )

A charges particles particle is kept in equilibrium in the electric field between the plates of millikan oil drop experiment. If the direction of the electric field between the plates is reversed, then calculate acceleration of the charged particle.

An electrical charge 2xx10^-8 C is placed at the point (1,2,4) m. At the point (4,2,0) m, the electric