Only fluorine has 9 protons in the atomic nucleus.
Atoms are not anions. An atom is an electrically neutral particle with equal numbers of protons and electrons. An atom becomes an anion by gaining more electrons, so becoming negatively charged.
Anions of acids are (at least) basic(eg. CH3COO- + H+ --> CH3COOH)but some anions are amphoteric, so partially acidic and partially basic(eg. acidic: HS- --> S2- + H+ ,and basic: HS- + H+ --> H2S)
No, the atomic number of an element does not change when its atom gets converted into cations or anions. The atomic number is determined by the number of protons in the nucleus of an atom, which remains the same during the formation of cations or anions.
They all have the same number of neutrons. All atoms of a given element have a specific number of protons. That is what gives an element its elemental identity. But we know that different atoms of a given element can have different numbers of neutrons. These different atoms of the same element are the isotopes of that element. All the atoms of a given isotope of a given element will have the same number of protons and will have the same number of neutrons. all isotopes of an atom have same number of proton but they have different number of neutron so they have same chemical properties and different physical properties. all isotopes of an atom have same number of proton but they have different number of neutron so they have same chemical properties and different physical properties.
Anions in aqueous solutions can be determined using various analytical techniques such as ion chromatography, titration, and gravimetric analysis. The choice of method depends on factors like the concentration and type of anions present. These techniques involve chemical reactions with specific reagents to identify and quantify the anions present in the solution.
anions have more electrons than protons
Bruh
Atom that are anions have two more electrons than it has in protons.
No, anions have more electrons than protons. An anion is a negatively charged ion that gains an extra electron, resulting in a greater number of negative charges compared to positive charges (protons). Neutrons do not have charge and are not directly related to the charge of anions.
Atoms are not anions. An atom is an electrically neutral particle with equal numbers of protons and electrons. An atom becomes an anion by gaining more electrons, so becoming negatively charged.
Anions of acids are (at least) basic(eg. CH3COO- + H+ --> CH3COOH)but some anions are amphoteric, so partially acidic and partially basic(eg. acidic: HS- --> S2- + H+ ,and basic: HS- + H+ --> H2S)
Monatomic anions are formed when atoms gain one or more electrons. The number of protons in the nucleus remains the same, giving the atom a net negative charge due to having more electrons than protons.
No, the atomic number of an element does not change when its atom gets converted into cations or anions. The atomic number is determined by the number of protons in the nucleus of an atom, which remains the same during the formation of cations or anions.
A solubility chart or a table of standard reduction potentials can be used to determine which cations or anions will replace others in a chemical reaction depending on their reactivity and solubility properties.
Since you want atomic (rather than molecular) anions AND 9 protons only the element with atomic number 9 is possible, i.e. Fluorine. This has really only one anionic state though, -1. So I can only suppose you mean either: - transient unstable anions - synthetic isotopes of Fluorine (also unstable) - molecular rather than atomic anions In the latter case (most likely) you could have as well as F- also e.g. NH2- or OH- as molecular (not atomic) anions with 9 protons in total.
A tool that would be used to find information on which cations or anions will replace others in a chemical reaction is a displacement table.
Anions have more electrons than protons. Anions are negatively charged ions, which means they have gained one or more electrons compared to the number of protons present in their nucleus. This electron gain gives them a net negative charge.