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-)
Acids donate protons to solutions. HCl H + The proton donated. and Cl -
It depends on the way the electron is used. If the atom "uses" it by giving it away to some other atom or molecule, it becomes a positively charged cation. If it instead uses it by taking it into its own structure, it becomes a negatively charged anion.
It depends on which way it "lost" its electron. Ionization is the word for a charged atom, such as that of an atom which has lost or received an electron. Both Na+ and Cl- are ions and the sodium ion is the one who has lost an electron, while the chloride ion on the other hand has gained an electron.
no, cl does not have any tattoos
Well if you donate a eye, you wont die. If you donate a heart, youll probably live for about 3 minutes, though your probably dead befor you donate that.
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.
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.
Li loses one electrons. Cl gains the electron.
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, cesium tends to donate one electron to chlorine in order to achieve a more stable electron configuration. This leads to the formation of Cs+ and Cl- ions through ionic bonding.
li cl
Elements in the 1st group have 1 valence electron. So they are likely to donate 1 electron to get more stable. potassium, rubidium and cesium are likely to donate 1 electron.
From greatest to least tendency to accept an electron, they are F, O, C, Li, and Be.
+1 for Li and -1 for Cl
Li mainly reacts with other elements by donating it's one lone valence electron to become Li+ and then it forms an ionic bond. For example, Li reacts with Cl by donating an electron and making LiCl.
In the Lewis electron dot structure for NaCl, sodium (Na) will donate its one valence electron to chlorine (Cl), which has seven valence electrons. This results in both Na and Cl achieving a full outer shell of electrons, making them stable. The final structure will show Na with no dots and Cl surrounded by eight dots.
Cl can act as both a Lewis acid and a Lewis base depending on the reaction it is involved in. As a Lewis acid, Cl can accept an electron pair and form a coordinate covalent bond. As a Lewis base, Cl can donate an electron pair to form a bond.