Since toothium is not a real element, nobody will be able to tell you this. It's from an assignment from online school. Nobody knows; just call your teacer
Deuterium, also called heavy hydrogen, is a stable isotope of Hydrogen.The nucleus of deuterium is called a deuteron, contains ONE proton and (typically for the deuterium isotope) ONE neutron, whereas the far more common hydrogen nucleus contains no neutron.Both contain ONE electron in the 1s-shell, so chemically they are of the same properties.
Proton therapy uses protons, which are positively charged subatomic particles found in the nucleus of an atom. Hydrogen atoms, which consist of a single proton in their nucleus, are commonly used as the source of protons in proton therapy.
An electron is not the largest part of an atom.An electron is the smallest component of an atom. Relatively, if a neutron or proton were 1 unit in size, an electron would be 1/1840 units in size. :3Read more: An_electron_is_the_largest_part_of_an_atom
In chemistry, the nucleus is the central part of an atom that contains protons and neutrons. It has a positive charge due to the presence of protons. The nucleus is surrounded by a cloud of negatively charged electrons.
When a positron is emitted from a nucleus, a proton is converted into a neutron, which decreases the number of protons and increases the number of neutrons. As a result, the neutron-to-proton ratio increases. This process, known as beta plus decay, effectively transforms the nucleus into a more stable configuration by reducing the repulsive forces between protons.
One more proton in La,and one (or more) neutrons, depending on what isotopes are compared.There is also 1 extra electron but that's not in nucleus.
No , because the neutrons have the same particles as the nucleus.
N-14 has more protons. It contains one more proton than C.
Deuterium, also called heavy hydrogen, is a stable isotope of Hydrogen.The nucleus of deuterium is called a deuteron, contains ONE proton and (typically for the deuterium isotope) ONE neutron, whereas the far more common hydrogen nucleus contains no neutron.Both contain ONE electron in the 1s-shell, so chemically they are of the same properties.
Proton therapy uses protons, which are positively charged subatomic particles found in the nucleus of an atom. Hydrogen atoms, which consist of a single proton in their nucleus, are commonly used as the source of protons in proton therapy.
Almost all of the mass of an atom is in the nucleus. The nucleus is made up of protons and neutrons, with hydrogen-1 as the lone exception because its nucleus has only a proton in it. In other atoms, protons and neutrons are fused together to form that nucleus. The electrons are out in their electron cloud. And we mention the electron because it has only about 1/1836th the mass of a proton. See how it works? A fistful of electrons weigh almost nothing compared to a single proton. The neutron is slightly heavier than a proton, so when neutrons and protons are gathered in any atomic nucleus, it contains most all of the mass of that atom.
No , because the neutrons have the same particles as the nucleus.
Inaccurate statement as a hydrogen IS the proton. An atom is made up of the nucleus which contains protons and neutrons and the electrons. A Protium or Hydrogen-1 contains 1 proton and no neutrons, it however has 1 electron which makes up very little of the mass so you could say that. 1 electron is 1/1834 the mass of a proton. So hydrogen is ~ 1+ 5.4875×10^-4 amu
neutrons
The process of removing an electron from a stable nucleus is called electron capture. In this process, an electron is absorbed by a proton in the nucleus, converting the proton into a neutron and releasing a neutrino. This results in a more stable arrangement of particles in the nucleus.
The nucleus of an atom contains protons and neutrons, which are called nucleons. Protons have a positive charge, while neutrons have no charge. Electrons, which have a negative charge, orbit around the nucleus in electron clouds.
Adding a proton to a gold nucleus would result in a more highly charged and thus more highly valued atom. This would change the element from gold to a different element with a higher atomic number, potentially leading to different chemical and physical properties.