Asked by mysterychicken

I'm not sure how to solve this:

If 125 cal of heat is applied to a 60.0-g piece of copper at 20.0∘C , what will the final temperature be? The specific heat of copper is 0.0920 cal/(g⋅∘C). Express the final temperature numerically in degrees Celsius

Thanks
Answered by bobpursley
heatgained= mass*c*(Tf-Ti)

Tf= 125/(60*.0920) + 20
Answered by mysterychicken
I'm sorry, I haven't really understood what you've done. could you maybe break it down for me? I'm new at this whole chem thing. What is Tf and Ti?
She's good, she's about to get her degree in education!

Thanks
-MC
Answered by bobpursley
Tf is the final temperature, Ti is the initial temperature.
Answered by bobpursley
I started from heat=mc deltaTemp
then solved for final temperature Tf
Answered by mysterychicken
So what I'm getting as I set up the equation is 60g x 125 x 60
and that doesn't seem right
Answered by bobpursley
Hmmmm. that is far from right.

Heatgained= mass*specificheat*change in temp

change in temp= heatgaind/(specificheat*mass)

change in temp= 125cal/(.0920cal/gC * 60g) = 33.6 check that

chaknge in temp= finaltemp-initial temp

so final temp= 33.6+20 C
Answered by James
53.6 c
Answered by Einstein
47.6
Answered by 17bungel
47.6 *C is correct.
Answered by Anonymous
none of those are correct
Answered by Anonymous
42.6
Answered by AP
43 try rounding it
Answered by Gaby
45.6 ∘C
Answered by Karla
44.6 °C
Answered by anona
all wrong lmfaoo
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