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Whenαparticles are directed onto atoms in a thin metal foil, some make very close collisions with the nuclei of the atom and are scattered at large angles. If anαparticle with an initial kinetic energy of 5MeVhappens to be scattered through an angle of 180°. Find the distance of closest approach to the scattering nucleus. (infm)Correct answer is '29'. Can you explain this answer? for Physics 2024 is part of Physics preparation. The Question and answers have been prepared
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Whenαparticles are directed onto atoms in a thin metal foil, some make very close collisions with the nuclei of the atom and are scattered at large angles. If anαparticle with an initial kinetic energy of 5MeVhappens to be scattered through an angle of 180°. Find the distance of closest approach to the scattering nucleus. (infm)Correct answer is '29'. Can you explain this answer?, a detailed solution for Whenαparticles are directed onto atoms in a thin metal foil, some make very close collisions with the nuclei of the atom and are scattered at large angles. If anαparticle with an initial kinetic energy of 5MeVhappens to be scattered through an angle of 180°. Find the distance of closest approach to the scattering nucleus. (infm)Correct answer is '29'. Can you explain this answer? has been provided alongside types of Whenαparticles are directed onto atoms in a thin metal foil, some make very close collisions with the nuclei of the atom and are scattered at large angles. If anαparticle with an initial kinetic energy of 5MeVhappens to be scattered through an angle of 180°. Find the distance of closest approach to the scattering nucleus. (infm)Correct answer is '29'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Whenαparticles are directed onto atoms in a thin metal foil, some make very close collisions with the nuclei of the atom and are scattered at large angles. If anαparticle with an initial kinetic energy of 5MeVhappens to be scattered through an angle of 180°. Find the distance of closest approach to the scattering nucleus. (infm)Correct answer is '29'. Can you explain this answer? tests, examples and also practice Physics tests.