It is not a synthesis reaction because two products are obtained.
I assume you mean the molecular mass. Its molecular mass is 367.01g/mol
The molar mass of PbBr2 is 367.008 g/mol
PbI does not exist. There are, however PbI2 and PbI4. Neither are good electrolytes.
Assuming that the fused bromide is that of lead (II), at the cathode, the half-reaction is Pb+2 + 2e- -> Pb; at the anode, the half-reaction is 2 Br-1 -> Br2 + 2 e-. The total reaction is therefore PbBr2 -> Pb + Br2. Any of several names could apply to this reaction: "electrolysis"; "decomposition"; or "electrolytic decomposition" would usually be most likely to be used.
The chemical equation is:Pb(NO3)2 + BaBr2 = PbBr2 + Ba(NO3)2
To convert Pb(NO3)2, KBr, PbBr2, and KNO3 into C6H12O6, 6O2, 6CO2, and 6H2O requires a chemical reaction. This specific conversion involves a complex series of steps that would need to be carried out in a laboratory setting under controlled conditions. It is not a direct or simple conversion but rather a multi-step reaction process involving various chemical reactions and potentially multiple intermediate steps.
I assume you mean the molecular mass. Its molecular mass is 367.01g/mol
1.2x10-2
PbBr2 is only slightly soluble in water, but more so than PbCl2, so if you had to write the equation it would be2LiCl(aq) + PbBr2(aq) ==> 2LiBr(aq) + PbCl2(s)
The molar mass of PbBr2 is 367.008 g/mol
The chemical formula for Lead (II) Bromide is - PbBr2
The solubility of PbBr2 at 25°C can be calculated using the Ksp value. Since PbBr2 dissociates into Pb2+ and 2 Br- ions, the solubility (S) can be found using the expression Ksp = [Pb2+][Br-]^2. By substituting the given Ksp value into the equation, you can solve for the solubility of PbBr2 at 25°C.
The formula for Led II Bromide is PbBr2. It is a non organic compound and is a result of leaded gasoline burning.
PbBr2
The molar solubility of PbBr2 in water is approximately 1.6 x 10^-3 mol/L at 25°C. This means that at this temperature, 1.6 x 10^-3 moles of PbBr2 will dissolve in one liter of water.
lead + bromine ---> lead bromide Pb + Br2 ---> PbBr2 As a chemical compound containing lead, it is categorised as probably carcinogenic to humans. It is a white powder at room temperature.
PbI does not exist. There are, however PbI2 and PbI4. Neither are good electrolytes.