In my lab, observe Energy production by metals and solutions.
-Take a strip of filter paper, and place it in a plastic dish.
- Place one small drop of copper sulfate (CuSO4) solution at the very end of the filter paper then place a small piece of copper metal (a penny) and place it on the spot of copper sulfate solution.
-Then add one small drop of zinc sulfate (ZnSO4) solution at the other end of the filter paper.Take a small piece of zinc metal (a washer) and place it on the spot of zinc nitrate solution.
- Turn on the voltmeter, then put one voltmeter probe on the copper, the second on the zinc, and record the voltage (if it fluctuates, guess at the average value). Then remove the voltmeter.
- Take a dropper bottle of sodium nitrate (NaNO3) solution and squeeze out a thin strip of solution that connects the drops of copper sulfate and zinc nitrate solutions.
- Repeat the voltage measurement. If the reading is negative, reverse the order of your two probes on the metal pieces. This reading should be bigger than the initial reading.
(This is a bit tricky, however one should observe a voltage only when a current can travel between the voltmeter probes. Dry paper is not conductive. An ionic solution, such as sodium nitrate is conductive.)
* My explain :
Personal, I observed the voltmeter of penny and zinc metal is 0.007 v. The voltmeter of compound after addition of NaNO3 is 0.015v.
1/ I think that Cu + CuSO4 (can’t reaction) , Zn+ZnSO4 ( also can’t reaction). Therefore, the voltmeter can measure between Cu or CuSO4, Zn or ZnSO4.
2/ After add NaNO3 into this compound (above), Cu(NO3)2 and Zn(NO3)2 are high conductivity. That is why the voltmeter of this compound is bigger than the initial compound.
2NaNO3 + CuSO4 -> Cu(NO3)2 + Na2SO4
2NaNO3 + ZnSO4 -> Zn(NO3)2 + Na2SO4
P/S : I don't really know about my explanation. If you guys know about how explain it , PLEASE help me !! Thanks a lot
