In Geiger marsden experiment in a head on collision between an `alpha` particles and a gold nucleus the minimum separation is `4xx10^(-14)` m . the energy of `alpha` particle is

In a head-on collision between an alpha -particle and a gold nucleus, the minimum distance of approach is 3.95 xx 10^(4)m . Calculate the energy of the alpha -particle.

In a head on collision between an alpha particle and gold nucleus, the minimum distance of approach is 4xx10^(-14)m . Calculate the energy of of alpha -particle. Take Z=79 for gold.

In a head on collision between an alpha particle and gold nucleus (Z=79), the distance of closest approach is 39.5 fermi. Calculate the energy of alpha -particle.

In a head-on collision between and alpha -particle and a gold nucleus, the distance of closest approach is 4.13 fermi. Calculate the energy of the particle. (1 fermi = 10^(-15) m )

In geiger-marsden scattering experiment , the trajectory traced by alpha - particle depends on

The distance of closest approach of an alpha particle to the nucleus of gold is 2.73 xx 10^(-14) m. Calculate the energy of the alpha particle.

In Geiger-Mersden experiment, collimation of alpha -particles into a narrow beam is done by passing

In Geiger-Mersden experiment, detection of alpha -particles scattered at a particular angle is done by