Question

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


​

Answer 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)

Answer 2

Answer:

answer is 40 folow me thanku