"A 100g mass is heated with a strong flame for 10 seconds then placed into a crucible on a heat proof mat. After cooling for 5 minutes the 100g mass is at 67.6C while the table it's resting on is at 24.2C. What will be the final temperature of the mass?"
Our teacher assigned us this problem to work on and its one I don't think is possible to solve without some extra information such as the heat capacities of both of the masses.
I tried adding both temps together and divided them to get the final temperature/average but I don't think that approach was going to be accurate. It takes different amounts of joules to increase the temperature of dissimilar materials, meaning if one loses a certain amount of joules the other will increase in temp but not by the same amount as the other substance(correct me if I'm wrong).
This is why I think the problem might need more information but when confronting my teacher with this she just said this in reply "Basically, the final temp of the mass will end up being the same temperature of the room. It will heat the room by a tiny, tiny, tiny quantity, but essentially end up at room temp."
Am I missing something here? This is my first thermodynamics orientated class so I'm not well versed. Thank you in advance.
Edit: here is the other information we are given:
The initial temp is 25.9C and the sample was at 180.2C after being heat up. The flame temp 190.5C. Conduction, convection, radiation are all involved.
