Silver Acetate Formula
Silver Acetate Formula
Silver Acetate Formula consists of various elements, namely, Carbon, Hydrogen, Silver, and Oxygen. In group-14 of the periodic table, Carbon is present as a non-metal. The atomic number of carbon is 6 and is represented by the symbol C. Hydrogen is considered to be the lightest, colorless, odorless, tasteless, and flammable gas. The atomic number of hydrogen is 1 and it is represented by the symbol H. Silver is a soft, white, lustrous transition metal present in group-11 of the periodic table with the atomic number of 47. It is represented by the symbol Ag. Oxygen is a highly reactive nonmetal present in group-16 of the periodic table and its atomic number is 8 which is represented by the symbol O.
Preparation of Silver Acetate
There are two preparation methods for the Silver Acetate Formula. One method is acetic acid and Silver carbonate react at a temperature between 45 and 60 degrees Celsius to produce Silver Acetate. Water and carbon dioxide are also produced in addition to the Silver Acetate molecule. Another method of preparation of the Silver Acetate Formula is by using solutions of Silver Nitrate and Sodium Acetate which react to produce Silver Acetate.
Properties Of Silver Acetate
The Silver Acetate Formula is characterised by its white crystalline compound form which is commonly used as a laboratory reagent. The Molar mass of Silver Acetate is calculated to be 166.912 g/mol. It is said to be insoluble in water. It also decomposes when exposed to heat. The boiling point of the Silver Acetate Formula is 220°C.
Physical Properties of Silver Acetate
The appearance of Silver Acetate Formula is a white crystalline compound. It has a molecular weight of 166.912 g/mol. The Density of the Silver Acetate Formula is 3.26 g/cm³. Silver Acetate Formula is insoluble in water. The boiling point of Silver Acetate is 220°C.
Chemical Properties of Silver Acetate
The chemical properties of the Silver Acetate Formula include Silver metal is created when Silver Acetate combines with molecular hydrogen (H2) in the presence of catalysts like nickel, palladium, or platinum. Secondly, Silver Acetate breaks down when heated, producing acetone, carbon dioxide, oxygen, and Silver metal. Lastly, Methyl Bromide and Silver Acetate combine to form Methyl Acetate.
Structure of Silver Acetate
The Silver Acetate Formula has both a 2D structure as well as a 3D conformer structure. Eight-membered Ag2O4C2 rings are produced in the structure of Silver Acetate by two acetate ligands connecting two Silver centers.
Uses of Silver Acetate
Silver Acetate has found its use in various forms like:
- In the medical field, Silver Acetate has been used as an ingredient to manufacture anti-smoking medicine.
- Silver Acetate has found its use in the preparation of reflective, conductive Silver polymer films.
- Silver Acetate can also be used as a pesticide.
- It is also used in chewing gums.
- Silver Acetate is used as a laboratory reagent.
- What happens when Silver Acetate is heated?
It decomposes to give products such as carbon dioxide, acetone, oxygen, and Silver metal.
2. How can Silver Acetate be used?
Silver Acetate has been used as a reagent and a pesticide. It is also used in medical fields during the manufacture of anti-smoking medicines. It is also used for preparing reflective, conductive silvered polymer films.
3. Is silver acetate used in chewing gums?
Yes, silver acetate is known to be used in chewing gums.
4. Is silver Acetate organic or an inorganic compound?
Silver acetate has carbon atoms present in its structure. The presence of carbon atoms makes silver Acetate an organic compound as per the definition which states that the presence of carbon makes a compound organic. So, silver Acetate is considered organic.
5. Is silver acetate acidic or basic?
The substance silver acetate is acidic. It belongs to the category of acetate salts and is a powerful acid. Acetic acid and a base are combined to create acetate, a sort of salt.