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Exponential Growth and Decay (1 Viewer)

johnmiltons

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I've kinda been having some trouble with this question- can anyone help me out?
The current C flowing in a conductor dissipates according to the formula dC/dt = -kC. If it dissipates by 40% in 5 seconds, how long will it take to dissipate to 20% of the original current?
(The answer is 15.8 seconds, but I'm not really sure how the textbook got to that...)
 

Drongoski

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C(t) = current at time t and C(0) = current at time t = 0 (initial current). When t=5, current has lost 40% of value so that C(5) = 0.6 C(0). Let t = T be the time at which current is reduced to 20% of C(0); i.e. C(T) = 0.2 C(0).




Note: I have avoided calculating value of "k", which most of you are usually taught to do; so my solution may be confusing to some of you, especially if you are not very strong at indices and logs.
 
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johnmiltons

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Oh! I ended up solving it like this:
C=Ae^(-kt)
60%A=100%Ae^(-k*5)
ln(0.6)=-k*5
So, -k=ln(0.6)/5

20%A=100%Ae^((ln(0.6)/5)*t)
ln(0.2)/(ln(0.6)/5)=t
So, t=15.7533

So I guess it works! Thank you!
 

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