5000 liters of the toxic substance Trioxin was dumped into the local swamp at the beginning of the year 2010. The amount of Trioxin left in the swamp t years after it was dumped there is given 5000 +1 by A(t) = A) Find the AVERAGE RATE OF CHANGE in the amount of Trioxin from the beginning of the year 2012 to the beginning of the year 2016. ROUND YOUR ANSWER TO THE NEAREST LITER. The average rate of change is liters per year. B) Find the INSTANTANEOUS RATE OF CHANGE in the amount of Trioxin at the beginning of the year 2016. ROUND YOUR ANSWER TO THE NEAREST LITER. The instantaneous rate of change is liters per year.

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
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10.111111

5000 liters of the toxic substance Trioxin was dumped into the local swamp at the beginning of the year 2010. The amount of Trioxin left in the swamp t years after it was dumped there is given
5000
t+1
by A(t) =
A) Find the AVERAGE RATE OF CHANGE in the amount of Trioxin from the
beginning of the year 2012 to the beginning of the year 2016.
ROUND YOUR ANSWER TO THE NEAREST LITER.
The average rate of change is
liters per year.
B) Find the INSTANTANEOUS RATE OF CHANGE in the amount of Trioxin
at the beginning of the year 2016.
ROUND YOUR ANSWER TO THE NEAREST LITER.
The instantaneous rate of change is
liters per year.
Transcribed Image Text:5000 liters of the toxic substance Trioxin was dumped into the local swamp at the beginning of the year 2010. The amount of Trioxin left in the swamp t years after it was dumped there is given 5000 t+1 by A(t) = A) Find the AVERAGE RATE OF CHANGE in the amount of Trioxin from the beginning of the year 2012 to the beginning of the year 2016. ROUND YOUR ANSWER TO THE NEAREST LITER. The average rate of change is liters per year. B) Find the INSTANTANEOUS RATE OF CHANGE in the amount of Trioxin at the beginning of the year 2016. ROUND YOUR ANSWER TO THE NEAREST LITER. The instantaneous rate of change is liters per year.
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