0
What else can I help you with?
How many molecules are in 45 g of silver?
To determine the number of molecules in 45 g of silver, you first need to calculate the number of moles of silver using its molar mass (107.87 g/mol). Then, you can use Avogadro's number (6.022 x 10^23) to convert moles to molecules.
What molecules are in silver?
Silver, in its elemental form, is represented by the symbol Ag and consists of silver atoms. In compounds, silver can form various ions, such as silver(I) ion (Ag⁺) and silver(II) ion (Ag²⁺). Additionally, silver can bond with other molecules to create compounds like silver chloride (AgCl) or silver nitrate (AgNO₃), which contain silver atoms along with other elements.
Is ag a molecules?
Ag is the chemical symbol for silver, which is an element on the periodic table. While silver does not exist as a molecule in its pure elemental form, it can form molecules when it combines with other elements.
Is silver a diatomic molecule?
Gold has one stable isotope and many radioactive ones.
How many formla units are present in 85.6g of AgNO3?
The molar mass of silver nitrate is 169,87 g: approx. two formula units.
How many molecules are there in 22.0 g of silver chloride?
22.0 g of silver chloride contain 0,918.10e23 molecules.
How many molecules are there in 65 g of silver nitrate?
Well, because you have 65g of AgNO3, you have .3826 moles of silver nitrate. This is found by dividing the number of grams you have by the molar mass of silver nitrate (169.9g/mol). Once you know how many moles there are you can then multiply by Avogodro's number (6.022x1023) to obtain the number of molecules. In this case it is 2.304x1023 molecules.
How many molecules are in 45 g of silver?
To determine the number of molecules in 45 g of silver, you first need to calculate the number of moles of silver using its molar mass (107.87 g/mol). Then, you can use Avogadro's number (6.022 x 10^23) to convert moles to molecules.
How many molecules are there in 65 g of silver nitrate (AgNO3)?
Well, because you have 65g of AgNO3, you have .3826 moles of silver nitrate. This is found by dividing the number of grams you have by the molar mass of silver nitrate (169.9g/mol). Once you know how many moles there are you can then multiply by Avogodro's number (6.022x1023) to obtain the number of molecules. In this case it is 2.304x1023 molecules.
How many molecules of Silver Nitrate in 2 moles of Silver Nitrate?
according to Avogadro number, one mole of substance = 6.022x10^23 molecules. so 2 mole =12.044 molecules of substance. the number of molecules don't depend on what the substances are but depends on the number of mole of that substance
How many moles is 2.0 x 10 25 molecules of silver nitrate?
To find the number of moles, divide the number of molecules by Avogadro's number (6.022 x 10^23 molecules/mol). In this case, 2.0 x 10^25 molecules of silver nitrate is equal to 33.2 moles (2.0 x 10^25 / 6.022 x 10^23).
What molecules are in silver?
Silver, in its elemental form, is represented by the symbol Ag and consists of silver atoms. In compounds, silver can form various ions, such as silver(I) ion (Ag⁺) and silver(II) ion (Ag²⁺). Additionally, silver can bond with other molecules to create compounds like silver chloride (AgCl) or silver nitrate (AgNO₃), which contain silver atoms along with other elements.
Is ag a molecules?
Ag is the chemical symbol for silver, which is an element on the periodic table. While silver does not exist as a molecule in its pure elemental form, it can form molecules when it combines with other elements.
Why silver nitrate soluble in water?
Both have polar molecules.
What is result when silver nitrate is added to a starch?
When silver nitrate is added to starch, no reaction occurs. Silver nitrate does not react with starch molecules.
What is 2AgNO3?
2AgNO3 is the chemical formula for silver nitrate. It is a compound made up of silver, nitrogen, and oxygen atoms. Silver nitrate is commonly used in laboratory experiments and in the production of other silver compounds.
Is silver a diatomic molecule?
Gold has one stable isotope and many radioactive ones.
