Age/weight relationship of female arctic foxes caught in Svalbard

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Homework Help Overview

The discussion revolves around the age/weight relationship of female arctic foxes in Svalbard, represented by a mathematical function. Participants are exploring various aspects of this function, including weight estimation at a specific age, maximum weight, and the rate of change of weight over time.

Discussion Character

  • Exploratory, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants attempt to estimate the weight of a fox at 200 days and discuss how to find the maximum weight. Questions arise regarding solving for age when the weight reaches 80% of maximum and how to approach the derivative for rate of change.

Discussion Status

Some participants have provided guidance on using logarithms and derivatives, while others are exploring different interpretations of the mathematical expressions involved. There is an ongoing examination of the steps needed to solve for age and rate of change, but no consensus has been reached on specific solutions.

Contextual Notes

Participants are working within the constraints of the mathematical model provided and are discussing the implications of the function's behavior as age increases. The complexity of the exponential function and its derivatives is a focal point of the discussion.

gillgill
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The age/weight relationship of female arctic foxes caught in Svalbard, Norway, can be estimated by the function
M(t)=3102e^(-e)^(-0.022(t-56))
where t is the age of the fox in days and M(t) is the weight of fox in grams.
a) estimate the weight of a female fox that is 200 days old
i found that M(200)=2974.15g

b) Use M(t) to estimate the largest size that a female fox an attain (Hint: find lim as t->infinity M(t))

i found that it is 3102 grams

c)estimate the age of a female fox when it has reached 80% of its maximum weight.
is it
2481.6=3102e^(-e)^(-0.022(t-56))
0.8=e^(-e)^(-0.022(t-56))
then how do u solve for t?

d)estimate the rate of change in weight of an Arctic fox that is 200 days old.
how would u start this question?
 
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gillgill said:
...
c)estimate the age of a female fox when it has reached 80% of its maximum weight.
is it
2481.6=3102e^(-e)^(-0.022(t-56))
0.8=e^(-e)^(-0.022(t-56))
then how do u solve for t?
That's a good approach. Use the natural logarithm function on both sides.
gillgill said:
d)estimate the rate of change in weight of an Arctic fox that is 200 days old.
how would u start this question?
When you hear "rate of change of blah" you should immediately think of the derivative of blah.
 
0.8=e^(-e)^(-0.022(t-56))
ln0.8=e^(-.022(t-56)ln (-e)?
the power to the power is messing me up...
 
gillgill said:
0.8=e^(-e)^(-0.022(t-56))
ln0.8=e^(-.022(t-56)ln (-e)?
the power to the power is messing me up...
Just use the chain rule in a consistent manner. Pick an f(u) and a g(t) so that f(g(t)) = e^(-e)^(-0.022(t-56)), then apply the chain rule to (d/dt)(f(g(t)). For example, f(u) = e^u and g(t) = -e^(-0.022(t-56)).
 
does t=124.18?
 
for d)estimate the rate of change in weight of an Arctic fox that is 200 days old.
do u just find the deriviative of M(t)=3102e^(-e)^(-0.022(t-56))
and then sub in 200 after?
 
Yes, of course. The "rate of change" is the derivative.
 

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