Sr is converted into Y, yttrium, 38Sr90 -------> 39Y90 + e-
The isotope formed when tritium (3H) emits a beta particle is helium-3 (3He). This process occurs when a neutron in the tritium nucleus converts to a proton, releasing a beta particle (electron) and an electron antineutrino.
The process in which one isotope changes to another isotope is called radioactive decay. During this process, the unstable nucleus of an isotope emits radiation in the form of alpha particles, beta particles, or gamma rays to transform into a more stable isotope. The rate at which radioactive decay occurs is measured by the isotope's half-life.
Any radioactive element gives off subatomic particles, and these particles carry considerable energy. That is the definition of radioactivity. Examples of radioactive elements include uranium, plutonium, polonium, radium, and many more.
An example of an isotope that will spontaneously decay and emit particles with a charge of 2 is helium-6 (6He). This isotope undergoes beta decay to form lithium-6 (6Li) and emits a pair of particles, one positron (e+) and one helium-4 nucleus (α). The helium-4 particle, which consists of two protons and two neutrons, carries a charge of +2.
You'd need to specify an isotope in order for your question to be answered. Different isotopes decay through different modes, and a randomly selected isotope of radon could emit either alpha or beta particles (it could and in fact probably does additionally emit gamma rays as well).
The isotope formed when tritium (3H) emits a beta particle is helium-3 (3He). This process occurs when a neutron in the tritium nucleus converts to a proton, releasing a beta particle (electron) and an electron antineutrino.
The process in which one isotope changes to another isotope is called radioactive decay. During this process, the unstable nucleus of an isotope emits radiation in the form of alpha particles, beta particles, or gamma rays to transform into a more stable isotope. The rate at which radioactive decay occurs is measured by the isotope's half-life.
When 60Co decays by beta- decay it produces 60Ni.
They have a heavy nucleus. Hence it is unstable. Hence it emits radiation in the form of alpha and beta particles to form lighter elements. After emitting these particles, it is in an exited state. It emits gamma radiation to return to its ground state
This is a radioactive isotope.
Any radioactive element gives off subatomic particles, and these particles carry considerable energy. That is the definition of radioactivity. Examples of radioactive elements include uranium, plutonium, polonium, radium, and many more.
An example of an isotope that will spontaneously decay and emit particles with a charge of 2 is helium-6 (6He). This isotope undergoes beta decay to form lithium-6 (6Li) and emits a pair of particles, one positron (e+) and one helium-4 nucleus (α). The helium-4 particle, which consists of two protons and two neutrons, carries a charge of +2.
You'd need to specify an isotope in order for your question to be answered. Different isotopes decay through different modes, and a randomly selected isotope of radon could emit either alpha or beta particles (it could and in fact probably does additionally emit gamma rays as well).
emits radioactive particles.
Alpha particles are formed during the process of radioactive decay when a heavy nucleus emits two protons and two neutrons. These particles have a positive charge and are relatively large and slow-moving compared to other types of radiation. They have low penetration power and can be stopped by a piece of paper or human skin, but can be harmful if ingested or inhaled.
Radioactive elements have unstable nucleii. When an unstable nucleus decays it emits energy in the form of electromagnetic waves and heavy particles and in the process forms new nucleii.
Radon emits alpha particles, which are helium nuclei consisting of two protons and two neutrons. These particles can cause damage to lung tissues when inhaled, increasing the risk of developing lung cancer.