FeCl3 + Na3PO4 → 3 NaCl + FePO4 – Balanced Equation | Chemical equations online!
Aqueous ferric chloride (FeCl3) reacts with aqueous sodium hydroxide (NaOH) to form ferric hydroxide (Fe(OH)3 > ) and sodium chloride ( NaCl).
3 CuCl2 + 2 Na3PO4 → 6 NaCl + Cu3(PO4)2 – Balanced Equation | Chemical equations online!
Type of chemical reaction: For this reaction we have a double replacement reaction. Balancing Strategies: This is a double displacement reaction. It’s helpful to count the OH- as one thing since you have it on both sides of the equation (see video solution in “Show Balanced Equation”).
Ferric chloride solution appears as a colorless to light brown aqueous solution that has a faint odor of hydrochloric acid. Highly corrosive to most metals and likely to be corrosive to tissue.
If FeC3 solution is added to NaOH a negatively charged sol is obtained.
Based on the balanced molecular equation (above), we can see that two moles of sodium phosphate reacts with three moles of cobalt(II) nitrate to form one mole of cobalt(II) phosphate precipitate .
A solution of sodium phosphate reacts with a cupric chloride solution according to Equation 2. The reaction can be classified as a double exchange precipitation reaction. Insoluble copper(II) phosphate, Cu3(PO4)2, precipitates from solution as a turquoise solid.
Answer: Well, when Fecl3 is dissolved in water, a lot of heat is released. So it’s exothermic.
Anhydrous ferric chloride can be produced by reacting metallic iron with dichloride. The chemical equation for this reaction is given below.
Ferrous chloride or iron(III) chloride (FeCl3) is used as a flocculant in waste water treatment and drinking water production. If small amounts of iron chloride are added to the raw water, iron(III) hydroxide precipitates and adsorbs finely divided solids and colloids.