Alpha particle would go undiviated when it collides with an electron of gold foil . Why ?

An alpha -particle colliding with one of the electrons in a gold atom looses

………. Is produced when a positron and an electron collide.

When alpha particle captures and electron, then it becomes a

Radius of an electron moving in a circle in constant magnetic field is two times that of an alpha particle in the same field. Then de-Broglie wavelength of electrons is x-times of the alpha -particle Here x is

Define the distance of closest approach. An alpha -particle of kinetic enegy 'K' is bombarded on a thin gold foil. The distance of the closest approach is 'r' . What will be the distance of closest approach for an alpha -particle of double the kinetic energy ?

(a) Alpha particles having kinetic energy of 1.8 MeV each are incident on a thin gold foil , from a large distance. Applying the principle of conversation of energy, find the closest distance of approach of the alpha particle from the gold nucleus. (Atomic number of gold = 79 ).

Most of the alpha -particles passed through the foil undeviated . What can be concluded from this observation ?

If in alpha particle scattering experiment, the gold foil was replaced by thin sheet of solid hydrogen, how would the results change and why ?

When an alpha particle gains two electrons it becomes neutral and becomes an atom of an element which is a rare gas. What is the name of this rare gas?

(a) Define the distance of closest approach. A alpha -particle of kinetic energy K is bombarded on a thin gld foil. The distance of the closest approach is r_(a) . What will be the distance of closest approach for an alpha -particle of double the kinetic energy ? (b) Show that the radius of the orbit of an electron in hydrogen atoms varies as n^(2) , where n is the principal quantum number of the atom.