Ni(s) | Ni2+(aq) Ag+(aq) | Ag(s)

1 mol Ag/ 107.87g Ag

---/---------------------------------------- x2=215.74g Ag

/ 1mol Ag

1 mol S/32.07g S

--------/------------------------------------32.07g S

/1 mol S

total=247.81g Ag2S

215.47g Ag/247.81=.8706 87.06% Ag

.8706 or 87.06% Ag x 125g Ag2S = 108.83g Ag can be produced from Ag2S

Ag = silver Na = sodium S = sulphur

The balanced equation for the reaction between Ag₂S and O₂ to produce Ag and S₈ is:

2Ag₂S + 11O₂ → 2Ag + 4SO₂

AG - artistic gymnast(s).

Ag(s)

Ag(s)

The mass of 2,65 Ag moles is 285,85 g.

Cr(s) Cr3+(aq) Ag+(aq) Ag(s)

Cu(s) Cu2+(aq) Sn4+(aq), Sn2+(aq) Pt(s)

CdS2HNo3

The chemical formula for silver sulfide is Ag2S, where Ag represents silver and S represents sulfur.

The abbreviation for chemical elements is based on their Latin names. Silver's Latin name is "argentum," which is why its abbreviation is Ag and not S.

animosh(ag) = dog(s)

No, the chemical symbol for silver on the periodic table is Ag. "S" typically represents sulfur on the periodic table.

Calcium (Ca) amd silver (Ag) are metals.

Albert Ronald Graham has written:

'Synthesis and x-ray study of compounds in the systems, Pb-Bi-S, Ag-Bi-S, and Ag(Bi, Sb)S(2)' -- subject(s): Mineralogy

In silver sulfide (Ag2S), each silver (Ag) atom has an oxidation state of +1, and each sulfur (S) atom has an oxidation state of -2. This arrangement balances out the charges to form a neutral compound.

This is a double displacement reaction, where silver (Ag) and sulfur (S) ions exchange partners to form silver sulfide (Ag2S) compound.

One mole of chloride (Cl-) to one mole of Ag+ ions: Cl- + Ag+ --> AgCl(s)

In the cell, the half-reaction for silver will be Ag+ (aq) + e- -> Ag (s) with a standard reduction potential of +0.80 V. The half-reaction for copper will be Cu2+ (aq) + 2e- -> Cu (s) with a standard reduction potential of +0.34 V. The silver half-reaction will occur at the cathode, while the copper half-reaction will occur at the anode in the cell.

If you mean a reaction of AgNO3 + Na(s) ==> NaNO3 + Ag(s), there would be ONE electron transferred.Ag^+ + 1e- ==> Ag(s) Reduction reaction

Na(s) ==> Na^+ + 1e- Oxidation reaction

In this reaction, iron (Fe) is oxidized to iron (III) nitrate (Fe(NO3)3) and silver nitrate (AgNO3) is reduced to silver (Ag).

Ag^+ (aq) + SCN^- (aq) → AgSCN (s)

This reaction forms a precipitate of silver thiocyanate, a white solid.

The product agNO3 is a chemical formula known as silver nitrate. Silver nitrate is developed by reacting silver with nitric acid. The correct formula written for silver nitrate is AgNO3, or Ag(NO3)2.

To determine the amount of silver sulfide formed, we need to find the ratio of silver to sulfide in the compound. The molar ratio of silver to sulfur in silver sulfide is 1:1. Therefore, with 215.8g of silver and 32.1g of sulfur, you would produce a total of 32.1g of silver sulfide.

AG = Aktiengesellschaft

If Ag+ is converted to Ag, it has gained electrons. Ag+ indicates that silver has lost one electron, so when it is converted back to Ag, it means that electron has been gained back.

The net ionic equation for silver acetate (AgC2H3O2) dissociating in water is:

AgC2H3O2(s) → Ag+(aq) + C2H3O2-(aq)

(2 Na+ + HS- + OH-)(aq) + 2 (Ag+ + [NO3]-)(aq) ----------

Ag2S(S) + 2 (Na+ + [NO3]-)(aq) + H2O

No - he is the first Republican to serve as the Michigan AG since the 1950's.

The symbol for silver is Ag because it comes from its Latin name "argentum." This symbol helps to avoid confusion with other elements like sulfur (S) or silicon (Si) that also start with the letter "S."

The balanced equation for silver wire (Ag) placed in a cadmium nitrate solution would be:

Ag(s) + Cd(NO3)2(aq) → AgNO3(aq) + Cd(s)

3. P and S. Phosphorus and sulfur are both good insulators because they are nonmetals with high electrical resistivity.

The overall voltage for the redox reaction involving Ag and Cu is determined by subtracting the reduction potential of the anode from the reduction potential of the cathode. Given the reduction potentials of Ag and Cu as 0.80 V and 0.34 V respectively, the overall voltage is 0.46 V, calculated as (0.34 V) - (0.80 V).

"Ag" is the chemical symbol for silver.

AG stands for Aktiengesellschaft = stock corporation.

Pe Ni S Co Ck

Ag is the chemical symbol of silver.

The postal code is: 627811

Sigfrid von Weiher has written:

'Weg und Wirken der Siemens-Werke im Fortschritt der Elektrotechnik 1847-1972' -- subject(s): Siemens AG

'The Siemens Company' -- subject(s): Siemens AG

The net ionic equation for silver nitrate (AgNO3) mixed with sodium phosphate (Na3PO4) is: Ag⁺(aq) + PO4^3-(aq) -> Ag3PO4(s)

280g Ag

The decomposition reaction of silver chloride is: 2AgCl(s) → 2Ag(s) + Cl2(g).

Ag+ + CrO4^2- --> Ag2CrO4

For now only the AG company knows. But there is an AG movie in the making. Jade Pettyjohn stars in it. Many people think its about the GOTY 2012 or Julie and Ivy. Some people think the GOTY 2012's name will be Velma, but AG hasn't given out details. AG knows who the Girl of the year will be 3-5 years before! Good luck searching, but no more info will be found untill about... November!

-An AG lover :)

From the balanced equation, we can see that 2 moles of Ag2O will produce 4 moles of Ag. First, calculate the molar mass of Ag2O (231.74 g/mol) and Ag (107.87 g/mol). Next, convert 5.50 grams of Ag2O to moles, which is 0.024 moles. Since the molar ratio is 2:4 for Ag2O:Ag, the moles of Ag produced will be 0.048 moles. Finally, convert this to grams, which is 0.048 moles * 107.87 g/mol = 5.18 grams of Ag.

To find the limiting reactant, calculate the moles of each reactant by dividing the mass by their respective molar masses. Then, determine which reactant produces the least amount of product based on the stoichiometry of the reaction. The limiting reactant is aluminum, so use its moles to calculate the moles of silver produced and then convert to grams, considering the molar mass of Ag.