Asked by Doug
Calculate the work done when 70.0g of tin dissolves in excess acid at 3.00 atm and -15.0 C.
Sn(s)+2H^+(aq) -> Sn^2+(aq)+H2(g)
Assume ideal gas behavior.
Any ideas? I've come up with a few different answers and can't come to a conclusion.
I see the following energies involved:
1) tHe ionization energy of Sn
2) the ionization energy of H+
3) the energy of formation of H2(g)
On 1) make certain the data reflects solid to aq. All of those ought to be standard table look ups. I don't have my Merck or CRC handy.
Sn(s)+2H^+(aq) -> Sn^2+(aq)+H2(g)
Assume ideal gas behavior.
Any ideas? I've come up with a few different answers and can't come to a conclusion.
I see the following energies involved:
1) tHe ionization energy of Sn
2) the ionization energy of H+
3) the energy of formation of H2(g)
On 1) make certain the data reflects solid to aq. All of those ought to be standard table look ups. I don't have my Merck or CRC handy.
Answers
Answered by
Kim
0J
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.