7. Silver nitrate breaks into silver ions and nitrate ions in water. AGNO3 (s) + H2O (I) -> Ag (aq) + NO, (aq) (solution A) Potassium chloride breaks into potassium ions and chloride ions in water KCI (s) + H,O (I) -> K*(aq) + CF (aq) (solution B) a) If the student first dilutes the original silver nitrate solution (250 mL of a 5.00 M aqueous solution of silver nitrate) up to When the two solutions are mixed together, a white precipitate is formed - silver chloride. Ag* (aq) + NO (aq) + K*(aq) + Cl (aq) -> A9CI (s) + NO (aq) + K(aq) (solution C) a volume of 1.00 L) before mixing with 350 mL of a 5.00 M aqueous solution of potassium chloride, what is the final -> -> concentration of nitrate ions in the final aqueous solution?

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7. Silver nitrate breaks into silver ions and nitrate ions in water. AgNO3 (s) + H2O (I) -> Ag* (aq) + NO, (aq) (solution A) Potassium chloride breaks into potassium ions and chloride ions in water KCI (s) + H2O (I) -> K*(aq) + CF (aq) (solution B) When the two solutions are mixed together, a white precipitate is formed - silver chloride. a) If the student first dilutes the original silver nitrate solution (250 mL of a 5.00 M aqueous solution of silver nitrate) up to a volume of 1.00 L) before mixing with 350 mL of a 5.00 M aqueous solution of potassium chloride, what is the final -> Ag (aq) + NO (aq) + K*(aq) + CI (ag) -> AgCI (s) + NO, (aq) + K*(aq) (solution C) concentration of nitrate ions in the final aqueous solution?