Math, asked by getha79958, 3 months ago


if a substance cools from
370K to 330k in 10 min, when the
temperature of the surrounding air is 290k find the temperature of the substance after 40 minutes


Answers

Answered by 353619835
1

Answer:

According to Newton’s law of cooling, the rate at which a substance cools in moving air is proportional to the difference between the temperature of the substance and that of the air. If the temperature of the air is 290°C and the substance cools from 370°C to 330°C in 10 minutes, find when the temperature will be 295°C.

Newton's law of cooling is Q/t∝(T _ s−T _ f)Q/t∝(T

s

−T

f

)

Solving for it, we get;

T(t)=T_ S+(T_ 0–T_ S)e –ktT(t)=T

S

+(T

0

–T

S

)e–kt

where; t is the time ;

T_o=T

o

= initial temperature of substance

T_s=T

s

= temperature of surrounding fluid

In this case

T _ s=290°CT

s

=290°C ;T _ o=370°C;T

o

=370°C

For t=10 minutes and T=330°C---(given)

To find: t for T=295°CT=295°CTofind:tforT=295°CT=295°C

330=290+80e^{-10k}330=290+80e −10k330=290+80e

−10k

330=290+80e−10k

\implies k =ln2/10⟹k=ln2/10⟹k=ln2/10⟹k=ln2/10

295=290+80e −kt295=290+80e−kt

⟹e ^{kt} =16⟹t=4ln2/k⟹e

kt

=16⟹t=4ln2/k

⟹t=40min. (Answer)⟹t=40min.(Answer)

Answered by s13698271
0

Answer:

answer is 40 folow me thanku

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