AgNo3 Molar Mass: AgNo3 Soluble or Insoluble

(1) Introduction.

Silver nitrate is a chemical compound of silver, nitrogen, and oxygen atoms. AgNo3 molar mass is 169.87 grams per mole. AgNo3 (Silver nitrate) easily dissolves in water, making it soluble. This compound is prepared through the reaction of silver with nitric acid. Its versatility finds applications in various fields, including medicine, photography, and laboratory experiments. In this article, we'll explore the molar mass of AgNo3, AgNo3 soluble or insoluble, uses, preparation and more.

AgNo3 Molar Mass: AgNo3 Soluble or Insoluble
AgNo3 Silver Nitrate

(2) AgNo3 Molar Mass.

AgNo3 molar mass is 169.87 grams per mole.

How To Calculate Molar Mass Of AgNo3.

Calculating the molar mass of AgNO3 is like adding up the mass of all its parts. AgNO3 has three different atoms: silver (Ag), nitrogen (N), and oxygen (O). To find the molar mass, we add the atomic masses of each atom together.

Ag has a mass of about 107.87 grams per mole. N has a mass of approximately 14.01 grams per mole. O has a mass of around 16.00 grams per mole.

So, when we add these together: 107.87 (Ag) + 14.01 (N) + (3 x 16.00) (3 oxygens) = 169.87 grams per mole.

Therefore, the molar mass of AgNO3 is about 169.87 grams per mole.

(3) AgNo3 Soluble or Insoluble

AgNO3 is soluble in water, which means it can dissolve in it. When you mix AgNo3 with water, it forms a clear solution. In a clear solution, the silver ions (Ag+) and nitrate ions (NO3-) spread out evenly throughout the water. This ability to dissolve makes silver nitrate easy to use in various applications. 

For example, it can be easily mixed into solutions for medical treatments, chemical reactions, or other processes where a dissolved form of silver is needed. So, in simple terms, silver nitrate is soluble, meaning it can mix well with water.

(4) AgNo3 Prepration.

To make silver nitrate (AgNO3), we need two things: silver (Ag) and nitric acid (HNO3). Here's how we do it:

(1) We start with some silver metal (Ag).

(2) We pour nitric acid (HNO3) over the silver. This starts a chemical reaction.

(3) The nitric acid reacts with the silver, and one of the products is silver nitrate (AgNO3).

(4) After the reaction, we can filter out any leftover solid silver, leaving us with a solution of silver nitrate.

The preparation of AgNo3 can be represented by the following reaction.


(5) AgNo3 Uses. 

Silver nitrate (AgNO3) has various uses due to its unique properties. It's commonly used in medicine to treat certain skin conditions and in eye drops for newborn babies to prevent infection. In photography, it is used to create black-and-white images on film. Additionally, silver nitrate is employed in laboratories. 

AgNo3 is used in the labs to test for the presence of halide ions. It's also used in chemical synthesis to make other silver compounds. Overall, silver nitrate's versatility makes it valuable in medical, photographic, and chemical applications.

AgNo3 Properties.

AgNO3 has several important properties. It is a white, crystalline solid that dissolves easily in water. When exposed to light, it can turn black. This ability makes it useful in photography. Silver nitrate is sensitive to air and light, so it is stored in dark containers. 

It's also corrosive, meaning it can damage skin and other materials upon contact. In medicine, it is used to treat skin conditions and prevent infection. Additionally, silver nitrate can react with certain chemicals to form other silver compounds. Overall, its properties make it valuable in various fields like medicine, photography, and chemistry.


In conclusion, we've explored silver nitrate (AgNO3) and its significance. With an AgNo3 molar mass of about 169.87 grams per mole, it's crucial to know its importance for various applications. As for its solubility, silver nitrate readily dissolves in water. Its solubility allows it to be easily used in solutions. 

Its ability to dissolve makes it versatile in fields like medicine, photography, and chemistry experiments. However, caution is needed as it can be corrosive and sensitive to light. Despite these properties, silver nitrate remains a valuable compound contributing to advancements in science, medicine, and technology. This is all about AgNo3 Molar Mass and AgNo3 Soluble or Insoluble. I hope you have learned something new along with these questions.

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