You have 25 liters of water in bucket A and 25 in bucket B. The difference in temperature difference is 40K between them. Now if you take one liter from A to B and then from B to A (after mixing properly). What would be the temperature difference between A and B.

If you do this activity 5 times what would be the final temperature difference. What would be temperature difference in 10 th time?

Question

You have 25 liters of water in bucket A and 25 in bucket B. The difference in temperature difference is 40K between them. Now if you take one liter from A to B and then from B to A (after mixing properly). What would be the temperature difference between A and B.

If you do this activity 5 times what would be the final temperature difference. What would be temperature difference in 10 th time?

anonymous · Answer

AFTER FIRST TIME THE DIFFERENCE WILL BE  36.92307692 K

anonymous · Answer

ACTUALLY I THINK I FOUND THE SERIES:
t_0=40
t_1=40*(24/26)=40*(12/13)
t_2=t_1*(12/13)=40*(12/13)^2
.
.
.
t_n=40*(12/13)^n

anonymous · Answer

So, after five times,
t_5=26.807 K
AND AFTER 10 times,
t_10=17.965 K

anonymous · Answer

I think both @demitris and @sauravshakya are almost excatly there.
However neither of you guys has clearly A) stated B) Reasoned in explaining you respective
$$ \Large\color{Magenta}{\text{Recursion Equation }} \ \
 \ Concentration(n+1) = \\
 =\Large{F}{(Concnetrat._{\,\,hotb}(n)\,\, , Concentrat. _{\,\,coldb}(n)  )} $$

Of course we mean concentration of heat. now $$ Heat.Concentrat. \,\,\sim\,  Temperature $$

anonymous · Answer

We all understand that this is a kind of geometric decrease , yet you have endeavored to SOLVE it exactly.... Did you not ?

anonymous · Answer

@demitris and @sauravshakya

anonymous · Answer

The night was silent in fron of him ... $$ \Huge\color{green} {\underbrace{\ddot{}}}   $$

anonymous · Answer

WASNT THE ANSWER GIVEN BY ME CORRECT

anonymous · Answer

@mikael

experimentx · Answer

not sure if that was correct ... I didn't have answer and don't remember my answer either. I had got the recursion relation. pretty close $$ t_n = {25 \over 26}t_{n-1}$$

experimentx · Answer

while demetris had got 
$$ t_n = {24 \over 25}t_{n-1}$$
which is pretty close. probably weather you take from hot cold or cold to hot might make difference. Not sure though. If you are interested you can check.

anonymous · Answer

I solved it assuming the water is transferred from cold to hot and back from hot to cold.

experimentx · Answer

try assuming water is transferred from cold to hot and from hot to cold. also use 1 liter.

anonymous · Answer

U MEAN HOT TO COLD NOW?

experimentx · Answer

yep ... if results are symmetric then you must be correct.

anonymous · Answer

YEP GOT THE SAME SERIES.

anonymous · Answer

OK HERE IS MY METHOD.
LET THE DIFFERENCE IN TEMPERATURE OF 25 liters of water in bucket A and 25 in bucket B be x KELVIN (ALSO LET A IS HOTTER THAN B).......ALSO LET TEMPERATURE OF BUCKET B BE y KELVIN THEN the temperature of bucket A is (y+x) kelvin
NOW,
FROM B TO A:
WHEN 1 liter of water is transferred from B to A then,
THE temperature of bucket B does not change but the temperature of bucket A changes.
The temperature of bucket A will be (1*y+25*(y+x))/26 = y+25/26 x 
Now again 1 litre of water is transferred from bucket B to A.... THIS TIME the temperature of bucket A will remain constant but the temperature of bucket B will change:
TEMPERATURE OF BUCKET B = {1*(y+25/26 x) + 24*y}/25 =y+(1/26)x
NOW,
DIFFERENCE IN TEMPERATURE=y+25/26 x -y-1/26x = 12/13 x

anonymous · Answer

WHICH CLEARLY SHOWS THAT temperature difference is in geometric series with common ratio 12/13

anonymous · Answer

GOT SAME RESULT WHEN ASSUMED WATER IS TRANSFERRED FROM A to B.

experimentx · Answer

worked out again and ... looks like both of you are right!! Help each other with medals.