When solutions containing silver ions and chloride ions are mixed, silver chloride precipitates: Ag+(aq)+Cl−(aq)→AgCl(s)ΔH=−65.5kJ
A.) Calculate ΔH for formation of 0.100 mol of AgCl by this reaction.
I got A ΔH=-6.55 kJ
B.) Calculate ΔH for the formation of 2.80 g of AgCl.
C.) Calculate ΔH when 0.110 mmol of AgCl dissolves in water.
Need help with B and C.
When solutions containing silver ions and chloride ions are mixed, silver chloride precipitates: Ag+(aq)+Cl−(aq)→AgCl(s)ΔH=−65.5kJ A.) Calculate...
When solutions containing silver ions and chloride ions are mixed, silver chloride precipitates: Ag+(aq)+Cl−(aq)→AgCl(s)ΔH=−65.5kJ Calculate ΔH for formation of 0.490 mol of AgCl by this reaction. Calculate ΔH for the formation of 7.50 g of AgCl. Calculate ΔH when 9.23×10−4 mol of AgCl dissolves in water.
When solutions containing silver ions and chloride ions are mixed, silver chloride precipitates: Ag' (aq) + Cl (aq) -> AgCl(s) ?? -65.5kl PartB Calculate ?? for the formation of 9.50 g of AgCl. kJ Submit vious Answers Request Answer X Incorrect, Try Again; 5 attempts remaining Not quite. Check through your calculations; you may have made a rounding error or used the wrong number of significant figures. PartC Calculate ?? when 9.22x10-4 mol of AgCl dissolves in water ?? Submit...
Call2 (aq) + R2003 (aq) - CaCO3 (s) + 2 KCl (aq) 21. When solutions containing silver ions and chloride ions are mixed, silver chloride precipitates Ag+ (aq) + C1- (aq) - AgCl (s) AH = -65.5 kJ Is this reaction endothermic or exothermic? How much heat is released, in kj, by the reaction of 0.450 mol of silver ions in this reaction? (5pts)
Silver ions can be precipitated from aqueous solutions by the addition of aqueous chloride: Ag+(aq)+Cl−(aq)→AgCl(s) Silver chloride is virtually insoluble in water so that the reaction appears to go to completion. How many grams of solid NaCl must be added to 25.0 mL of 0.149 M AgNO3 solution to completely precipitate the silver?
a When solutions of silver nitrate and sodium chloride are mixed, silver chloride precipitates out of solution according to the equation AgNO3(aq)+NaCl(aq)→AgCl(s)+NaNO3(aq) Part A What mass of silver chloride can be produced from 1.51 L of a 0.293 M solution of silver nitrate? Express your answer with the appropriate units. b. The reaction described in Part A required 3.54 L of sodium chloride. What is the concentration of this sodium chloride solution? Express your answer with the appropriate units.
When solutions of silver nitrate and sodium chloride are mixed, silver chloride precipitates out of solution according to the equation AgNO3(aq)+NaCl(aq)→AgCl(s)+NaNO3(aq) A.) What mass of silver chloride can be produced from 1.73 L of a 0.278 M solution of silver nitrate? B.)The reaction described in Part A required 3.26 L of sodium chloride. What is the concentration of this sodium chloride solution
11. Insoluble silver chloride dissolves in the presence of chloride ion. The equation for the overall reaction is AgCl(s) + Cl(aq) AgCl2 (aq) a) show that the overall reaction is the sum of two others: the ionization of AgCl(s) to give silver(I) and chloride ions, and the formation of AgCl2 (aq) from Ag (aq) and Cl(aq) ions. b) Calculate the equilibrium constant for the overall process from the equilibrium constants for the two steps. (refer back to Complex lon Formation...
7. (5 pts) The equilibrium constant for dissociation of silver chloride AgCl (s) + Ag (aq) + Cl(aq) Is 1.8x10. Find concentration of silver and chloride ions in saturated aqueous solution of silver chloride.
When solutions of silver nitrate and magnesium chloride are mixed, silver chloride precipitates out of solution according to the equation: 2AgNO3(aq) + MgCl2(aq) ---> 2AgCl(s) + Mg(NO3)2(aq) What mass of silver chloride can be produced from 1.04L of a 0.195M solution of silver nitrate?
When solutions of silver nitrate and calcium chloride are mixed, silver chloride precipitates out of solution according to the equation 2AgNO3(aq)+CaCl2(aq)→2AgCl(s)+Ca(NO3)2(aq) Part A: What mass of silver chloride can be produced from 1.07 L of a 0.225 M solution of silver nitrate? Part B: The reaction described in Part A required 3.13 L of calcium chloride. What is the concentration of this calcium chloride solution?