8. Copy the following diagram onto your answer sheet. Using the redox reaction given below, label the diagram with the following information: Beneath each beaker write the appropriate half reaction. Label each electrode with the appropriate metal. I. II. Indicate within each beaker the aqueous ion that is present inside the water. Along the wire indicate the flow of electrons using an arrow. On the salt bridge indicate which ion will flow into the anode and which ion will flow II. IV. V. into the cathode. Redox Reaction: 2Au (aq) + 3Be(s) → 2Au(s) + 3BE2*(aq) Salt Bridge: KNO3 salt bridge cathode anode

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8. Copy the following diagram onto your answer sheet. Using the redox reaction given below, label
the diagram with the following information:
I.
Beneath each beaker write the appropriate half reaction.
Label each electrode with the appropriate metal.
Indicate within each beaker the aqueous ion that is present inside the water.
Along the wire indicate the flow of electrons using an arrow.
I.
I.
IV.
V.
On the salt bridge indicate which ion will flow into the anode and which ion will flow
into the cathode.
Redox Reaction: 2AU3*(aq) + 3Be(s) → 2Au(s) + 3BE2*(aq).
Salt Bridge: KNO3
salt bridge
cathode
anode
Transcribed Image Text:8. Copy the following diagram onto your answer sheet. Using the redox reaction given below, label the diagram with the following information: I. Beneath each beaker write the appropriate half reaction. Label each electrode with the appropriate metal. Indicate within each beaker the aqueous ion that is present inside the water. Along the wire indicate the flow of electrons using an arrow. I. I. IV. V. On the salt bridge indicate which ion will flow into the anode and which ion will flow into the cathode. Redox Reaction: 2AU3*(aq) + 3Be(s) → 2Au(s) + 3BE2*(aq). Salt Bridge: KNO3 salt bridge cathode anode
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