If a charge particle starts from rest from one conductor and reaches the other conductor with a velocity of `10^(9)cm//s`, then calculate the potential differnce between the two conductor. The mass of the charge particle is `9xx10^(-28)` g and charge is `4.8xx10^(-10)`asu.

If a chargedd particle states from rest from one conductor and reaches the other condutor with a velocity 10^(9) cm/s, if the potential difference between the two conductors is 0.94 stat volt, then calcualte the charge of the charged particle. (Given, mass of charged particle= 9xx10^(-28) g)

An electron of mass 9xx10^(-31) kg carrying 1.6xx10^(-19) C starts from rest from one point and reaches a second conductor with a velocity 10^(7)ms^(-1) . Calculate the potential difference between the points.

A conductor, when given a charge of 5xx10^(-3) C, acquires a potential of 500 V. the capacity of the conductor is

The Velocity of electrons accelerated bt potential difference of 1xx10^(4) V (the charge of the electron is 1.6xx10^(-19) C and mass is 9.11xx10^(-31) kg) is

Two conductors insulated from each other, charged by transferring electrons from one conductor to the other. After 25 xx 10^12 electrons have been transferred. The potential difference between the conductors is found to be 16V. The capacitance of the system is

Calculate the particle of the uncertainty of the displacement and velocity of a electron having mass 9.1 xx 10^(-28) g

Consider a conductor of length 40 cm where a potential difference of 10V is maintained between the ends of the conductor. Find the mobility of the electrons provided the drift velocity of the electrons is 5xx10^(-6) ms^(-1)

When 1.0xx10^(12) electrons are transferred from one conductor to another, a potential difference of 10 V appears between the conductors. Find the capacitance of this two conductor system.

In a linear particle accelerator two large plane uniformly charged are placed parallel to each other as shown in the figure. figure also shows variation of potential between planes A charged particle carrying a charge q=1.6xx10^(-19) C and having mass m =16xx10^(-31) kg is released from rest at x=-10 cm determine time taken (in ns ) by particle to strike the other plane Neglect relativistic considerations.

A particle having a charge of 1.6 x 10^(-19) C enters midway between the two plates of a parallel plate capacitor. The initial velocity of particle is parallel to the plates. A potential difference of300 Vis applied between the two plates. lfthe length of the plates is 10 cm and they are separated by 2 cm, calculate the greatest initial velocity for which the particle will not be able to come out of the plates. The mass of the particle is 12 xx 10^(-24) kg [10^(4) m//s]