A neutral particle formed when atoms share electrons?
Atoms doesn't share electrons with neutral particles.
it is called a molecule
The answer is Molecule.
covalently bonded molecule
A covalent bond.
Molecules
a molecule
The alpha particle will grab the electron, making it a part of its electron cloud.? As a result, the helium atom (which is what an alpha particle is) transitions from a +2 charge to a +1 charge.?A second electron will bring the helium atom to neutral, non-ionic, charge.
After electron capture a neutrino is released.
The result is called particle.
An electron is the basic carrier of the negative electrostatic charge. It has an anti-matter equivalent (an anti-particle) called the positron. Either an electron or positron can be a beta particle. The reason is that beta decay releases a beta particle, and the type of particle will depend on the type of decay. In beta minus decay, the change in an atomic nucleus will release an electron, and in beta plus decay, the nuclear change will release a positron. Use the link below to learn more about beta decay.
In respiration,it is oxygen. It produces water as a result
No, a neutral particle that forms as a result of electrons sharing are called a molecule.
It is called a molecule which is covalently bonded in nature
The alpha particle will grab the electron, making it a part of its electron cloud.? As a result, the helium atom (which is what an alpha particle is) transitions from a +2 charge to a +1 charge.?A second electron will bring the helium atom to neutral, non-ionic, charge.
no
A covalent bond is formed as a result of sharing electron pairs.
In fact, the covalent bonds are made by sharing of two electrons in two atoms.
Perhaps, neutral particles arise when there are the same number of protons and electrons.
A covalent bond is formed as a result of sharing electron pairs.
Covalent bonds are formed between atoms by sharing their valence shell electrons. In most cases non metals form covalent bonds. Exceptions exist including gaseous sodium Na2 and diethylzinc (C2H5)2Zn.
Depends on what type of radioactive decay you are talking about. Beta decay (electron or positron) will have a charge, while alpha decay will not. Beta decay can either be positron decay or electron decay. Positron will result in the parent to have the same atomic mass but a different atomic number. The atomic number will be one less than that of the parent. Meaning one proton will decay into a neutron and a positron, which is a positively charged particle. Electron decay results in the parent gaining a proton while the atomic mass stays the same. A neutron decays into a proton and an electron and the electron is emitted with a negative charge. Alpha decay, however, results in the emission of a neutral helium particle. Gamma decay results in the same parent with no loss of charge or atomic number and gives off a high energy photon called a gamma particle.
When a nucleus emits a beta particle (electron) it is a result of neutron decay. This decay will also release an antineutrino and a proton is left which increases the atomic mass by one thereby changing the element.
Anti-particles. In the case of the (normal negatively-charged) electron, the anti-particle has a specific name; the positron. Since normal particles are the building blocks of matter, a collection of anti-particles are termed "anti-matter".