There are 3 protons in lithium and 17 protons in chlorine.
Li loses one electrons. Cl gains the electron.
Among these three elements, Cl has the greatest mass, as can be seen from any periodic table or other reference work that shows atomic masses.
The question is too vague to give any clear answer to - the number of protons in any element is the same as the atomic number, so in the case of Li, there are 3 protons.
This is a lithium chloride water solution containing ions Cl- and Li+.
Yes, lithium chloride (LiCl) is highly soluble in water. When dissolved, it dissociates into lithium ions (Li⁺) and chloride ions (Cl⁻), making it effective in various applications, including as a desiccant and in chemical synthesis. Its solubility in water is due to the strong interactions between the ions and water molecules.
Li atom donates one electron to a Cl atom when Li+Cl- is to be formed as ionic compound (salt):Li --> e- + Li+Cl + e- --> Cl--------------- +Li + Cl --> LiCl (or Li+Cl-)
li cl
Li+ and Cl-
Li and Cl do not form an ionic bond because Li readily loses its single valence electron to achieve a stable electron configuration (Li+), while Cl readily gains an electron to achieve a stable electron configuration (Cl-). This leads to the formation of a covalent bond between Li and Cl, where they share electrons to achieve stability.
Acids donate protons to solutions. HCl H + The proton donated. and Cl -
Hui Li has written: 'Proton exchange membrane fuel cells' -- subject(s): Proton exchange membrane fuel cells
chlorides are ionic bonds. so lithium chloride is ionic.
An ionic bond will form between Cl and Li. Cl will gain an electron from Li to achieve a full outer shell, creating a Cl- ion, while Li will lose an electron to achieve a full outer shell, creating a Li+ ion. The attraction between the oppositely charged ions will result in the formation of an ionic bond.
Yes, chlorine (Cl) and lithium (Li) can form an ionic bond. Lithium can donate its electron to chlorine, forming Li+ cation and Cl- anion, which attract each other due to their opposite charges, resulting in the formation of an ionic bond.
The equation for lithium chloride (LiCl) dissolving in water is LiCl(s) + H2O(l) -> Li+(aq) + Cl-(aq). This reaction shows the dissociation of LiCl into lithium ions (Li+) and chloride ions (Cl-) in aqueous solution.
LiCl is an ionic compound formed by the transfer of electrons from lithium (Li) to chlorine (Cl). It is considered polar due to the difference in electronegativity between Li and Cl, creating a partial positive charge on Li and a partial negative charge on Cl.
Li loses one electrons. Cl gains the electron.