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Exponential Growth and Decay. Glacier National Park, Montana Photo by Vickie Kelly, 2004. Greg Kelly, Hanford High School, Richland, Washington. Ex. Find the equation of the curve in the xy-plane that passes through the given point and whose tangent at
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Exponential Growth and Decay Glacier National Park, Montana Photo by Vickie Kelly, 2004 Greg Kelly, Hanford High School, Richland, Washington
Ex. Find the equation of the curve in the xy-plane that passes through the given point and whose tangent at a given point (x, y) has the given slope
The number of bighorn sheep in a population increases at a rate that is proportional to the number of rabbits present (at least for awhile.) So does any population of living creatures. Other things that increase or decrease at a rate proportional to the amount present include radioactive material and money in an interest-bearing account. If the rate of change is proportional to the amount present, the change can be modeled by:
Rate of change is proportional to the amount present. Divide both sides by y. Integrate both sides.
Integrate both sides. Exponentiate both sides. When multiplying like bases, add exponents. So added exponents can be written as multiplication.
Since is a constant, let . Exponentiate both sides. When multiplying like bases, add exponents. So added exponents can be written as multiplication.
At , . Since is a constant, let . This is the solution to our original initial value problem.
Exponential Change: If the constant k is positive then the equation represents growth. If k is negative then the equation represents decay.
Population Growth In the spring, a bee population will grow according to an exponential model. Suppose that the rate of growth of the population is 30% per month. a) Write a differential equation to model the population growth of the bees. b) If the population starts in January with 20,000 bees, use your model to predict the population on June 1st.