It is: ALMGCL I think according to my Periodic Table. Please recommend me!
The equation for the formation of red mercury (mercury(II) oxide) is 2Hg + O2 -> 2HgO. This reaction occurs when mercury reacts with oxygen to produce red mercury oxide.
There is a chemical reaction between mercury and aluminum, forming what is known as an amalgam.
chloride:- mercury (I) chloride mercury(II) chloride oxygen:- mercury oxide iodine:-mercury iodide flourine:- mercury(II) fluoridemercury(IV) fluoride bromide:- mercury bromidesulphur:- mercury sulphate mercury sulphidenitrogen and carbon :- mercury cyanide
HgI is not a chemical reaction, it is the empirical formula for the compound Mercury (I) iodide, Hg2I2
The reaction represented by HgCl2 + H2S → HgS + 2HCl is a double displacement reaction, specifically a precipitation reaction. In this process, the mercury(II) chloride (HgCl2) reacts with hydrogen sulfide (H2S) to form mercury sulfide (HgS), which is a solid precipitate, and hydrochloric acid (HCl). This type of reaction typically involves the exchange of ions between the reactants.
A white precipitate of mercury(I) chloride is formed when a small amount of tin chloride SnCl2 is put into a solution of mercury(II) chloride (HgCl2); adding more SnCl2 turns this precipitate black as metallic mercury is formed.
Since mercury can be either a 1+ ion called mercury(I), or a 2+ ion called mercury(II), there are two possibilities.Formulaspotassium chloride is KClpotassium iodide is KImercury(I) chloride is HgClmercury(I) iodide is HgImercury(II) chloride is HgCl2mercury(II) iodide is HgCl2Equation with Mercury(I)KCl + HgI --> HgCl + KIEquation with Mercury(II)2KCl + HgI2 --> HgCl2 + 2KI
I think there is no such reaction because both of the products are soluble. For one of these reactions to take place, one of the products should be a sediment or a gas.
The word equation for this reaction is: mercury oxide (s) → mercury (l) + oxygen (g).
The reactants in the equation are mercury II oxide (HgO). This compound will decompose into mercury (Hg) and oxygen (O2) during the reaction.
Cl(aq)+Ag(aq)-->AgCl(s) *do not forget to writte the charges on the elements, Cl 1 minus
The reaction between formic acid and mercuric chloride forms formyl mercury chloride and water. This reaction is a substitution reaction where the chlorine in mercuric chloride is replaced by the formate ion from formic acid.
The equation for the formation of red mercury (mercury(II) oxide) is 2Hg + O2 -> 2HgO. This reaction occurs when mercury reacts with oxygen to produce red mercury oxide.
When egg albumin is added to mercury chloride, a white precipitate called mercury albuminate is formed. This reaction occurs because the mercury chloride reacts with proteins in the egg albumin to form a complex compound. Mercury albuminate is insoluble in water and will settle out as a solid.
Mercury Nitrate: Hg(NO3)2 Sodium Chloride: NaCl
Potassium is in group one, so according to solubility rules, it will aways be soluble and therefore a spectator ion. That means that it will not take part in the chemical reaction and in a net equation it would not have to be included. HgCl2 + K2S yields HgS + 2KCl(aquious)
There are two chlorides of Mercury Mercury I chloride: Hg2Cl2 Mercury II chloride: HgCl2