No. Juipter does not have what it takes to ever becoming a star. The amounts of gasses Jupiter has is nothing compared to even a small star it would likely just burn up quickly and wouldn't have any real effect on the rest of our solar system.
In a nuclear fission reaction, a freely moving neutron undergoes neutron capture and initiates the nuclear fission of a fuel atom.
The isotope 252Cf is a very strong neutron source; some applications are: - neutron's detectors for water and petroleum - control of nuclear fuel rods - treatment of some cancers by neutron irradiation - neutron radiography in industry - neutron activation analysis in mobile installations
In actuality, a spontaneous fission event begins a nuclear chain reaction. It kick starts a nuclear chain reaction. And a neutron from that fission will initiate another fission to continue and rev up that nuclear chain reaction.
all you need in nuclear fission is a large element (235Uranium) and a neutron, the neutron goes into the Uranium causeing it to split into smaller parts grapes.
X-rays are not a type of nuclear radiation. They are a type of electromagnetic radiation.
In a nuclear fission reaction, a freely moving neutron undergoes neutron capture and initiates the nuclear fission of a fuel atom.
Neutron is an elementary particle, with a mass of approx. 1 amu; neutron is neutral. Neutrons are components of the atomic nucleus; neutrons contain quarks and gluons. Some applications: - neutron radiography - neutron diffraction - neutrons are involved in many important nuclear reactions as reactants or products - the nuclear fission is a problem of neutrons (nuclear reactors, nuclear weapons) - neutron activation analysis - neutron probes for water - experiments in nuclear physics
The neutron has been the key to nuclear power production.
Fast neutron energy is characterized by high kinetic energy levels, making them effective for inducing nuclear reactions. These reactions can be utilized in nuclear power generation, nuclear weapons, and neutron imaging techniques. Fast neutron reactors can also help reduce nuclear waste and increase fuel efficiency in the nuclear industry.
neutron
The isotope 252Cf is a very strong neutron source; some applications are: - neutron's detectors for water and petroleum - control of nuclear fuel rods - treatment of some cancers by neutron irradiation - neutron radiography in industry - neutron activation analysis in mobile installations
A neutron is absorbed by an atoms nucleus
Some applications of californium: - neutron source as Cf-Be source - neutron source for neutron activation analysis (portable installations) - neutron radiography - irradiation for some cancers treatment - nuclear fuel rod scanning - neutron source to detect water, petroleum, metals, methane etc.
In actuality, a spontaneous fission event begins a nuclear chain reaction. It kick starts a nuclear chain reaction. And a neutron from that fission will initiate another fission to continue and rev up that nuclear chain reaction.
all you need in nuclear fission is a large element (235Uranium) and a neutron, the neutron goes into the Uranium causeing it to split into smaller parts grapes.
When sodium is converted into an neutron it will result in the nuclear transmutation.
The absorption of a free moving neutron by the atom's nucleus