If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Cu and Ag+ solution

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Cu and Pb2+ solution

(5)​

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Zn and Cu+ solution

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Zn and Pb2+ solution

(3)​

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Zn and Mg2+ solution

(4)​

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Mg and Zn2+ solution

(4)​

If a reaction occurs we can assume the metal is MORE reactive than the metal in solution; as it is replacing it in the compound. If no reaction is observed than the opposite is true. The metal in solution is MORE reactive than the metal. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to one another.

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​Part A: Reacting Metals with metal solutions

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​Mg and Na+ solution

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​No video could be found for this experiment but it is an example of NO REACTION. Remember even when no reaction can be observed this still allows us to draw conclusions about reactivity of the metals.

If a reaction occurs we can assume the metal is MORE reactive than hydrogen; as it is replacing it in the compound. If no reaction is observed than it is NOT more reactive than hydrogen. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to hydrogen.

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​Part B: Reacting Metals with HCl

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If a reaction occurs we can assume the metal is MORE reactive than hydrogen; as it is replacing it in the compound. If no reaction is observed than it is NOT more reactive than hydrogen. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to hydrogen.

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​Part c: Reacting Metals with H₂O

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If a reaction occurs we can assume the metal is MORE reactive than hydrogen; as it is replacing it in the compound. If no reaction is observed than it is NOT more reactive than hydrogen. Also note the ​intensity of the reaction so that conclusions can be drawn about the relative reactivity of each metal in comparison to hydrogen.

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​Part c: Reacting Metals with H₂O

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​Part d: combustion of metals

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