How Does Mixing Water at Different Temperatures Affect the Final Temperature?

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Homework Help Overview

The discussion revolves around the mixing of equal masses of water at different temperatures, specifically 20°C and 80°C, and the determination of the final temperature of the mixture. Participants are exploring the concept of thermal equilibrium and averaging temperatures.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants question the assumption that the final temperature can simply be calculated as the average of the two initial temperatures. There is discussion about the implications of mixing different masses of water at varying temperatures and how that affects the final temperature.

Discussion Status

The discussion is ongoing, with participants providing guidance and questioning each other's reasoning. Some participants are reflecting on their understanding of averaging temperatures and the importance of considering the mass of water at each temperature.

Contextual Notes

There is a mention of the need to consider the temperature of the environment and how it may influence the final temperature, as well as the potential misunderstanding of what constitutes the initial and final temperatures in this context.

Dx
Equal masses of water 20C and 80C are mixed. what is the inal temp of the mixture?

I said 60C
why is this incorrect?
Dx
 
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It's not correct because 60o is the final (not initial) temperature.
 
I see
dx:wink:
 
Last edited by a moderator:
Originally posted by Dx
Thanks Tom!
dx:wink:
 
Once again, DX, be careful of Tom's answers.
The problem with asking someone to give you the answer is that they may just give you a WRONG answer!

It's not correct because 60 degrees is the final (not initial) temperature.
is not correct. You don't know what the "final" temperature will be because you don't know the temperature of the environment. In order to do this problem, you will have to interpret "initial" temperature as the temperature immediately AFTER mixing.

What makes you think the temperature will be 60 degrees? The only way I see that you can get 60 is to subtract 20 from 80. Do you have any reason for that? If the two temperatures had been 60 and 50 would you say that the mixture will be 10 degrees? Does that even make sense?

It should make sense to you that if you mix two things the final temperature will be BETWEEN the two original ones. In fact you should think about finding the average of the two temperatures.
What is the average of 20 and 80 degrees?

You should also think about how you would "average" the temperatures there were more water at one temperature than the other.

Suppose you had 10 grams of water at 20 degrees and 40 grams of water at 80 degrees. ABOUT what do you think the temperature of the mixture would be? How would you calculate it exactly?
 
Originally posted by HallsofIvy
Once again, DX, be careful of Tom's answers.
The problem with asking someone to give you the answer is that they may just give you a WRONG answer!


is not correct. You don't know what the "final" temperature will be because you don't know the temperature of the environment. In order to do this problem, you will have to interpret "initial" temperature as the temperature immediately AFTER mixing.

What makes you think the temperature will be 60 degrees? The only way I see that you can get 60 is to subtract 20 from 80. Do you have any reason for that? If the two temperatures had been 60 and 50 would you say that the mixture will be 10 degrees? Does that even make sense?

It should make sense to you that if you mix two things the final temperature will be BETWEEN the two original ones. In fact you should think about finding the average of the two temperatures.
What is the average of 20 and 80 degrees?

You should also think about how you would "average" the temperatures there were more water at one temperature than the other.

Suppose you had 10 grams of water at 20 degrees and 40 grams of water at 80 degrees. ABOUT what do you think the temperature of the mixture would be? How would you calculate it exactly?

Let me see. 20 + 80 = 100 / 2 = 50 average. I think i understand better now Ivy. Thanks! Can I add you as a friend, please? Let me try to work the problem further and if I jave anumore problems ill ask.
Dx :wink:
 
Originally posted by HallsofIvy
You should also think about how you would "average" the temperatures there were more water at one temperature than the other.

Actually, I assumed he did average them and that's how he got 60o. I didn't even notice that 60 isn't the average!
 
we forgive you this time Tom.
Just teasing, i am glad to see that everyone has each others back. Thanks HallsOfIvy,
I appreciate your help and toms too.
Dx:wink:
 

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