In a Rutherford scattering experiment when a projectile of change `Z_(1)` and mass `M_(1)` approaches s target nucleus of change `Z_(2)` and mass `M_(2)`, te distance of closed approach is `r_(0)`. The energy of the projectile is

In a Rutherford scattering experiment when a projectile of charge Z_(1) and mass M_(1) approaches s target nucleus of charge Z_(2) and mass M_(2) , te distance of closed approach is r_(0) . The energy of the projectile is

In a Rutherford's scattering experiment when a projectile of chargez Z_(1) and mass M_(1) approaches a target nucleus of Z_(2) and mass M_(2) the distance of closest approach is r_(0) . The energy of the projectile is........

In a Rutherford scattering experiment when prohectile of charge Z_1 and mass M_1 approaches a target nucleus of charge Z_2 and mass M_2 the distance of closest approach is r_0 . The energy of the projectile is:

If and alpha -paricle of mass m, charged q and velocity v is incident on a nucleus charge Q and mass m, then the distance of closest approach is

An alpha nucleus of energy (1)/(2)m nu^(2) bombards a heavy nucleus of charge Ze . Then the distance of closed approach for the alpha nucleus will be prpportional to

An alpha nucleus of energy (1)/(2)m nu^(2) bombards a heavy nucleus of charge Ze . Then the distance of closed approach for the alpha nucleus will be proportional to

An alpha nucleus of energy (1)/(2)m nu^(2) bombards a heavy nucleus of charge Ze . Then the distance of closed approach for the alpha nucleus will be proportional to

In a Geiger-Marsden experiment, calculate energy of alpha particle whose distance of closet approach to the nucleus of Z=79 is 2.8 xx 10^(-14) m. How will the distance of closet approach be affected when the kinetic energy of the alpha -particle is doubled ?

The distance between the a-particle and target nucleus in an alpha -scattering experiment is equal to distance of closest approach, when the scattering angle is