Well, I was wrong. I though when I told you your previous solution was too warm, you would take the hint.
Now, according to your calculations, the air inside the balloon is over twice the surface temperature of the
sun,
you know, the big shiny ball which hangs in the sky during the day:
http://en.wikipedia.org/wiki/Sun
I don't know what the final answer to this problem is, but when you calculate that you must be hotter than the sun
for the balloon to work, you know you've made some serious errors somewhere. And that's an important part
of physics, too. You should know that water boils at 100 C, that lead melts at 327 C, that iron melts at 1538 C, etc.,
stuff which you can also look up.
I think your formula involving the SG is leading you astray in this problem. Dry air at standard conditions has a density
of about 1.2 kg / cu.m., so your balloon envelope should contain more than 61.74 kg of air before heating. I suggest
you manipulate the PV = nRT formula so that you can calculate the density of air at a given temperature.
Then, knowing how much lift you need to generate, you should be able to calculate the T required in a rather
straightforward manner.
