Recall that the activity series gives us the relative reactivities of metals to oxidation: metals higher in the activity series are more reactive to oxidation and vice-versa.
Can displace Hydrogen from liquid water, steam, and acids.
Can displace Hydrogen from steam and acids.
Chromium (Cr2+, Cr3+)
Iron (Fe2+, Fe3+)
Can displace Hydrogen from acids.
Arsenic (As3+, As5+)
Copper (Cu+, Cu2+)
Mercury (Hg22+, Hg2+)
Platinum (Pt2+, Pt3+)
Gold (Au+, Au3+)
Completing the statement:
Bronze is a solid solution of Cu(s) and Sn(s); solutions of metals like this that are solids are called alloys. There is a range of compositions over which the solution is considered a bronze. Bronzes are stronger and harder than either copper or tin alone.
The reaction below is an example of a reaction you could do to remove all the tin from this bronze to leave a pure copper sample. Complete the explanation.
Sn(s) + 2HCl(aq) SnCl2(aq) + H2(g)
According to the Activity Series of Metals Sn is ______ H and Cu is ______ it. That is, Sn can be _______ to _____ by HCl(aq), but Cu(s) cannot. We can treat bronze with HCl(aq) to remove Sn as _______ and leave a pure Cu sample.
Options: below Sn2+(aq) above oxidized Sn2+(aq)
Frequently Asked Questions
What scientific concept do you need to know in order to solve this problem?
Our tutors have indicated that to solve this problem you will need to apply the Activity Series concept. You can view video lessons to learn Activity Series. Or if you need more Activity Series practice, you can also practice Activity Series practice problems.