Nothing really. Beta particles are electrons or positrons (the antimatter counterpart of electrons), and alpha particles are two protons and two neutrons (a helium nucleus). I guess the only things that they share are speed, and particles in them that have electric charge.
An alpha particle is a helium nucleus; it has a charge of +2.
What do you think are the change of the alpha particles directly hitting the nucleus
The factors that will affect the extent of scattering of alpha particles include the charge and mass of the nucleus they interact with, the impact parameter (closest approach distance), and the energy of the alpha particles. Additionally, the angle of deflection will be influenced by the velocity and direction of the alpha particles as they approach the nucleus.
nucleus of the atom has positive charge.alpha particles are also positively charged.like charges repel each other.so alpha particles passing near the nucleus are repelled and deviated from the normal path
The so-called alpha particles ARE helium nuclei.
No, they're just similar to a helium nucleus.
Nothing really. Beta particles are electrons or positrons (the antimatter counterpart of electrons), and alpha particles are two protons and two neutrons (a helium nucleus). I guess the only things that they share are speed, and particles in them that have electric charge.
alpha particles consist of two protons and two neutrons (helium nucleus) logically one neutron can not have a larger mass than two neutrons and two other subatomic particles of a similar mass
An alpha particle is a helium nucleus; it has a charge of +2.
Alpha decay. Alpha particles are the same as a helium-4 nucleus.
What do you think are the change of the alpha particles directly hitting the nucleus
The factors that will affect the extent of scattering of alpha particles include the charge and mass of the nucleus they interact with, the impact parameter (closest approach distance), and the energy of the alpha particles. Additionally, the angle of deflection will be influenced by the velocity and direction of the alpha particles as they approach the nucleus.
The alpha particle is positively charged (as is the nucleus) and is heavy compared with the neutron that is neutral and lighter than the alpha particle.Another viewpoint:It depends what experiment the question is about. For example, over a hundred years ago, Rutherford bombarded gold foil with alpha particles and some "bounced off" what we now call the nucleus of the atoms. However, about ten years later he did experiments in which alpha particles did indeed "split" atomic nuclei. So, sometimes alpha particles can certainly smash a nucleus apart.
Alpha particles are emitted from the nucleus at high speeds, typically around 5-10% of the speed of light. They move with such energy due to the strong repulsive force between the positively charged alpha particle and the remaining nucleus.
nucleus of the atom has positive charge.alpha particles are also positively charged.like charges repel each other.so alpha particles passing near the nucleus are repelled and deviated from the normal path
An alpha particle is two protons and two neutrons (same as a Helium nucleus) so when a nucleus ejects an alpha it will defintely have less mass. Also it will be a new element because it has two less protons.