Ag+ is Silver, and Cl- is chlorine.
When silver and chlorine are combined, the amounts do not need to be changed since the charges become neutral, so all that is changed is the -ine to an -ide.
The final result is Silver Chloride. AgCl - Silver chloride
It is a compound containing silver (Ag) and chlorine (Cl). It is an ionic compound.
This is not possible. It can be only AgCl or in complex chemistry. But in no way we can have AgCl3. We have AlCl3
AgCl is the chemical formula for silver chloride, which is a white crystalline solid commonly used in Photography and as a chemical reagent.
silver Chloride
Silver Chloride
AgCl has a higher lattice energy than AgBr because Cl- is a smaller ion than Br-, resulting in stronger electrostatic interactions in AgCl.
No, AgCl is not organic. It is an inorganic compound composed of silver and chlorine.
The mole ratio of BaCl2 to AgCl is 1:2. This means that for every 1 mole of BaCl2, 2 moles of AgCl are produced in the chemical reaction.
There's 4 moles.
Yes, AgCl (silver chloride) has low solubility in water. It is sparingly soluble and forms a white precipitate when it is formed in solution.
AgCl is highly insoluble, as it is a precipitate.
AgCl has a higher lattice energy than AgBr because Cl- is a smaller ion than Br-, resulting in stronger electrostatic interactions in AgCl.
Silver chloride
No, AgCl is not organic. It is an inorganic compound composed of silver and chlorine.
The mole ratio of BaCl2 to AgCl is 1:2. This means that for every 1 mole of BaCl2, 2 moles of AgCl are produced in the chemical reaction.
There's 4 moles.
Yes, AgCl (silver chloride) has low solubility in water. It is sparingly soluble and forms a white precipitate when it is formed in solution.
1. Put the mixture in water and stir. 2. AgCl is not soluble, NaCl is soluble. 3. After filtering NaCl passes in solution and AgCl remain on the filter.
AgCl, or silver chloride, is a white solid at room temperature.
To determine the mass of AgCl needed, first calculate the number of moles needed using the molarity equation: moles = molarity x volume (in L). Then, convert moles of AgCl to grams by using the molar mass of AgCl (107.87 g/mol for Ag and 35.45 g/mol for Cl). Finally, perform the calculation to find the grams of AgCl required.
AgCl is a white crystalline solid and is well known for its low solubility in water.
Need more info. AgCl, however, is very poorly soluble.