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A body with an initial temperature theta...

A body with an initial temperature `theta_(1)` is allowed to cool in a surrounding which is at a constant temperature of `theta_(0) (theta lt theta_(1))` Assume that Newton's law of cooling is obeyed Let `k =` constant The temperature of the body after time t is best experssed by .

A

` T = (T_(1) - T_(0))e^(-kt)` where k = `(12sigmaAT_(0)^(3))/(rrhoc)`

B

` T = (T_(1) - T_(0))ln(kt)` where k = `(sigmaAT_(0))/(mc^(3))`

C

`T= T_(0) + (T_(1)-T_(0)) e^(-kt)` where k = `(12sigmaT_(0)^(3))/(rrhoc)`

D

`T= T_(1)e^(-kt)-T_(0)` where k = `(sigmaT_(0)^(3))/(rrhoc)`

Text Solution

Verified by Experts

The correct Answer is:
C
From newton's law of cooling .
`sigmaA(T^(4)-T_(0)^(4)) = ms(-(dT)/(dt))`
`implies sigma.4rhor^(2)[(T_(0)+DeltaT)^(4) - T_(0)^(4)] = rho(4)/(3)pir^(3)c(-(dT)/(dt))`
`implies ((12sigmaT_(0)^(3))/(Prc)) (T-T_(0)) = -(dT)/(dt)`
`implies K(T-T_(0))dt = -dT implies kunderset(0)overset(t)int = -underset(T.)overset(T)int(dT)/(T- T_(0))`
`implies T =T_(0) + (T_(1)- T_(0)) e^(-kt)` where k = `(12sigmaT_(0)^(3))/(rrhoc)`
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