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rogerkitkit
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Why their tracks after collision has an angle 90 degree?
Any detail derive?
Any detail derive?
rogerkitkit said:Why their tracks after collision has an angle 90 degree?
Any detail derive?
Try solving 2D collision of bodies of equal mass, where one of them is initially at rest.rogerkitkit said:Why their tracks after collision has an angle 90 degree?
Any detail derive?
A collision between an alpha particle and a helium atom is a type of nuclear reaction in which an alpha particle (a positively charged particle consisting of two protons and two neutrons) collides with a helium atom (consisting of two protons and two electrons) resulting in the formation of a new nucleus.
The collision between an alpha particle and a helium atom is significant because it provides insights into the structure and properties of atomic nuclei. It also has practical applications in fields such as nuclear energy and medicine.
During a collision between an alpha particle and a helium atom, the two particles come into close proximity and interact through the strong nuclear force. This results in the alpha particle being absorbed by the helium nucleus, causing it to become unstable and undergo radioactive decay.
The possible outcomes of a collision between an alpha particle and a helium atom depend on the energy and angle of the collision. It can result in the formation of a new, more stable nucleus, the emission of particles such as protons or neutrons, or the release of energy in the form of gamma rays.
A collision between an alpha particle and a helium atom can be studied through experiments using particle accelerators or through theoretical calculations using mathematical models. Sophisticated detectors are used to measure the products of the collision and understand the underlying nuclear processes.