+1 for Ag, -1 for Cl
The oxidation number of Ag in AgCl is +1. AgCl is an ionic compound where Cl has an oxidation number of -1, so for the compound to be neutral, the oxidation number of Ag must be +1.
Silver has plus one.Chlorine has minus one.
In Ag NO3 the oxidation number of Ag (Silver) is 1+, the oxidation number of N (Nitrogen) is 5+, and the oxidation number of O (Oxygen) is 2-.
In AgNO3, silver (Ag) has an oxidation number of +1, nitrogen (N) has an oxidation number of +5, and oxygen (O) has an oxidation number of -2. This is because the overall compound is neutral, so the sum of the oxidation numbers must equal zero.
The oxidation number of Ag in AgClO4 is +1, as it is a common oxidation state for silver in compounds. The oxidation number of Cl in AgClO4 is +7, as it is in the ClO4- ion which has a total charge of -1.
The oxidation number of Ag in AgCl is +1. AgCl is an ionic compound where Cl has an oxidation number of -1, so for the compound to be neutral, the oxidation number of Ag must be +1.
Silver has plus one.Chlorine has minus one.
In Ag NO3 the oxidation number of Ag (Silver) is 1+, the oxidation number of N (Nitrogen) is 5+, and the oxidation number of O (Oxygen) is 2-.
In AgNO3, silver (Ag) has an oxidation number of +1, nitrogen (N) has an oxidation number of +5, and oxygen (O) has an oxidation number of -2. This is because the overall compound is neutral, so the sum of the oxidation numbers must equal zero.
The oxidation number of Ag in AgClO4 is +1, as it is a common oxidation state for silver in compounds. The oxidation number of Cl in AgClO4 is +7, as it is in the ClO4- ion which has a total charge of -1.
Silver metal, Ag has an oxidation number of 0. The most common oxidation state in compounds is +1 (as in AgCl) There are compounds such as AgO where the oxidation number is not +1 which actually contains Ag with +1 and +3
Zero The oxidation number of an element in its elemental form is always zero.
To find the number of moles in 0.0688g AgCl, first calculate the molar mass of AgCl. It is 143.32 g/mol. Then divide the given mass (0.0688g) by the molar mass to get the number of moles. This gives you approximately 0.00048 moles of AgCl.
There's 4 moles.
It actually reacts with AgCl to produce NaCl (which is soluble), and some Na3[Ag(S2O3)2]complexes which are also soluble in water.
The empirical formula of the compound would be AgCl, as the ratio of silver to chlorine in the compound is 3:1 based on the given mass percentages (75% Ag and 25% Cl). This ratio simplifies to AgCl when expressed in the simplest whole number ratio.
The oxidation number of silver (Ag) in Tollens' reagent (Ag(NH3)2+) is +1. This is because the overall charge of the complex ion is +1, and each ammonia molecule is neutral, leaving the silver ion with a +1 charge.