Suppose an electron is attracted toward ...

Suppose an electron is attracted toward the origin by a force`(k)/(r )` where `k` is a constant and `r` is the distance of the electron from the origein .By appling Bohr model to this system the radius of the `n^(th)` orbital of the electron is found to be `r_(n)` and the kinetic energy of the electron to be `T_(n)` , Then which of the following is true ?

Similar Questions

Explore conceptually related problems

Suppose an electron is attracted towards the origin by a force (k)/(r ) where k is a constant and r is the distance of the electron from the origin. By applying Bohr model to this system, the radius of the n^(th) orbital of the electron is found to be r_(n) and the kinetic energy of the electron to be T_(n) . Then which of the following is true?

suppose an electron is attracted towards the origin by a force k//r , where k is a constant and r is the distance of the electron form the origin. By applying bohr model to this system, the radius of n^(th) orbit of the electron is found to be r_n and

In Bohr.s model of hydrogen atom, radius of the first orbit of an electron is r_(0) . Then, radius of the third orbit is:

Kinetic energy of electron in n^("th") orbit in H-atom

In Bohr.s model of hydrogen atom, the ratio between the period of revolution of an electron in orbit n=1 to the period of the electron in the orbit n=2 is

Let r, v and E are the radius of the orbit, speed of the electron and the total energy of the electron respectively. Which of the following quantities are proportional to the quantum number .n. ?

An electron revolve round the nucleous with the radius of the circular orbit is 'r' . To double the kinetic energy of the electron its orbital radius will be

An electron revolves round the nucleus with the radius of the circular orbit being 'r'. To double the kinetic energy of the electron its orbital radius will be

Similar Questions

Recommended Questions