An alpha particle is a naturally occuring and somewhat common particle. (Among other things, it is...
An alpha particle is a naturally occuring and somewhat common
particle. (Among other things, it is a product of radon decay - so,
it's likely that plenty of alpha particles are present where you
live here in Colorado!) It is similar to a proton, but has four
times the mass, and twice the electric charge. In an experimental
apparatus an electron starting from rest acquires 5.98 keV of
kinetic energy in moving from point A to point B under the
influence of a static electric field. (keV means "kilo eV", by the
way.)
If an alpha particle is released from rest in the same apparatus,
what is the ratio of the final kinetic energy of the alpha particle
to the final KE of the electron? (Since this is a ratio, enter a
pure number)
Homework Answers
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An alpha particle is a naturally occuring and somewhat common
particle. (Among other things, it is...
A radium nucleus(Ra) at rest decays into a radon (Rn) nucleus and an alpha (a) particle....
A radium nucleus(Ra) at rest decays into a radon (Rn) nucleus and an alpha (a) particle. mRa =56.5ma mRn =55.5ma a. Find the ratio of the speed Va / VRn after the decay b. Find the ratio of the magnitude of the momenta Pa / PRn after the decay c. Find the ratio of kinetic energy KEa / KERn after the decay. show work algebraically
Points A and B have potentials of +250 V and-150 V respectively. An alpha particle (a...
Points A and B have potentials of +250 V and-150 V respectively. An alpha particle (a helium nucleus that contains two protons and two neutrons) starts from rest at A and accelerates toward B. When the alpha particle arrives at B, what kinetic energy (in electron volts) does it have? 6) Three point charges are located as shown. (a) Determine the electric potential at point A due to these charges. (b) What is the electric potential energy of a +3.5...
A nucleus whose mass is 3.730032 x 10-25 kg undergoes spontaneous "alpha" decay. The original nucleus...
A nucleus whose mass is 3.730032 x 10-25 kg undergoes spontaneous "alpha" decay. The original nucleus disappears and there appear two new particles: a He-4 nucleus of mass 6.640678x10-27 kg (an "alpha particle" consisting of two protons and two neutrons) and a new nucleus of mass 3.663533 x 10-25 kg (note that the new nucleus has less mass than the original nucleus, and it has two fewer protons and two fewer neutrons). In these calculations, it is very important to...
Problem 10.23 An alpha particle (a helium nucleus, containing 2 protons and 2 neutrons) starts out...
Problem 10.23 An alpha particle (a helium nucleus, containing 2 protons and 2 neutrons) starts out with kinetic energy of 9.9 MeV (9.9 x 100 eV), and heads in the +x direction straight toward a gold nucleus (containing 79 protons and 118 neutrons). The particles are initially far apart, and the gold nucleus is initially at rest. Answer the following questions about the collision. What is the initial momentum of the alpha particle? (You may assume its speed is small...
Points A and B have potentials of +250 V and-150 V respectively. An alpha particle (a helium nucleus that contains two protons and two neutrons) starts from rest at A and accelerates toward B. When the alpha particle arrives at B, what kinetic energy (in electron volts) does it have? 6) Three point charges are located as shown. (a) Determine the electric potential at point A due to these charges. (b) What is the electric potential energy of a +3.5...
A nucleus whose mass is 3.730032 x 10-25 kg undergoes spontaneous "alpha" decay. The original nucleus disappears and there appear two new particles: a He-4 nucleus of mass 6.640678x10-27 kg (an "alpha particle" consisting of two protons and two neutrons) and a new nucleus of mass 3.663533 x 10-25 kg (note that the new nucleus has less mass than the original nucleus, and it has two fewer protons and two fewer neutrons). In these calculations, it is very important to...
Problem 10.23 An alpha particle (a helium nucleus, containing 2 protons and 2 neutrons) starts out with kinetic energy of 9.9 MeV (9.9 x 100 eV), and heads in the +x direction straight toward a gold nucleus (containing 79 protons and 118 neutrons). The particles are initially far apart, and the gold nucleus is initially at rest. Answer the following questions about the collision. What is the initial momentum of the alpha particle? (You may assume its speed is small...
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