A proton has the same electrical charge as a singly ionized positive ion.
Protons have a positive charge, with an elementary charge of +1.
The charge of an atomic nucleus is positive because it contains protons, which have a positive charge. This positive charge is equal in magnitude to the total number of protons in the nucleus, causing the nucleus to overall carry a positive charge.
A neutral atom has an equal number of protons and electrons, resulting in no overall charge. An ionized atom has gained or lost electrons, creating a positive or negative charge. This difference in charge affects the atom's chemical behavior and reactivity.
When an atom is ionized, that means that it is sharing one or more electrons with another atom.
The net charge of the nucleus is positive because the electrons (e-) are not in the nucleus there are around it in the outer shells.
Assuming the context of this question is atomic physics, the answer is "false" for two reasons: 1) the atomic nucleus is positively charged. 2) the atomic nucleus a tightly bound composite of many particles.
Because protons have a positive charge and neutrons have no charge, the atomic nucleus has a positive charge.
Protons have a positive charge, with an elementary charge of +1.
positive charge
This is Hydrogen. Assuming it is not ionized it will have no charge.
protons
No, they have a positive charge, due to the protons.
No, they have a positive charge, due to the protons.
The charge of an atomic nucleus is positive because it contains protons, which have a positive charge. This positive charge is equal in magnitude to the total number of protons in the nucleus, causing the nucleus to overall carry a positive charge.
The atomic nucleus itself has a positive charge. The protons in the nucleus also have a positive charge (the neutrons are neutral). Both protons and neutrons contain "up" quarks, which have a positive charge (the "down" quarks have a negative charge).
No. Atomic mass is a measure of mass, not charge.
An atomic nucleus has a positive charge.