Atomic weight is really the only way to know how many neutrons there are. However, if you have no reason to think that you are dealing with an unusual isotope, you can assume the normal distribution of isotopes.
The only element without any neutrons is Hydrogen-1, which has a lone proton.
The element that an atom is is determined by the number of protons. The number of electrons can be changed (creating an ion), and the number of neutrons can be changed (creating an isotope), and as long as the number of protons does not change, the element that the atom is does not change.
A particle diagram representing a mixture of an element and a compound would show individual atoms or molecules of the element and compound mixed together without forming any new chemical bonds. The particles of the element and compound would be distinct from each other within the mixture.
Isotopes of an element have different densities due to variations in the number of neutrons in their nuclei. Neutrons contribute to the mass of the atom without affecting its chemical properties, leading to different atomic weights and densities for isotopes.
In a binary compound, the first element is usually a metal or a positively charged ion, and its name remains the same as the element itself without any changes.
It is not possible.
The only element without any neutrons is Hydrogen-1, which has a lone proton.
cannot say without knowing the element, that is the number of protons.Sulfur-35, radioactive; 19 neutronsChlorine-35, stable; 18 neutronsArgon-35, radioactive; 17 neutrons
Without knowing the element and the specific isotope, this has no answer.
Hydrogen is the only element without any neutrons.
Yes, and in order to find the Number of Neutrons, subtract Atomic Mass from Number Of Protons, the result will be the Number of Neutrons for that atom *No. Of Neutron=Atomic Mass - Number Of Protons
Every element has a specific number of protons, which is how an element is identified. That gives its atomic number. The number of neutrons can vary, and therefore is not useful in identifying an element.
Cannot be solved without knowing what an 'Element' is.
The mass number of an element is the total number of protons and neutrons in its nucleus. Given that the atomic number (number of protons) uniquely identifies an element, knowing just the mass number of 41 is insufficient to determine the specific element without additional information.
To provide the attractive binding of the nuclear strong force, without adding to the electromagnetic force. Without neutrons, the only chemical element would be hydrogen.
All of the elements with the exception of hydrogen have neutrons. So yes there is one element that doesn't need neutrons to be stable, the rest need them.
It wouldn't