2 2 Estimating Instantaneous Rate of Change September
§ 2. 2: Estimating Instantaneous Rate of Change September 30, 2010
Review of AROC
Review of AROC n graphically related to the secant line intersecting the graph of a function at two points
Difference Quotient n basically the same as delta x over delta y but combines the concept the delta concept with function notation n ∆x is the size of our interval and we replace that expression with h
Instantaneous Rate of Change n we estimate the IROC of a function f(x) at a point x = a by examining the AROC with a very small interval around the value of x = a n represented graphically by a tangent line to the curve f(x) at the point x = a
Tangent Line n a line that intersects the curve at a single point
Interval Method of Estimating IROC n to estimate the IROC of a function at a point, we need to first talk about the intervals we can use…
Intervals n preceding interval q n an interval having an upper bound as the value of x in which we are interested following interval q an interval having a lower bound as the value of x in which we are interested
Intervals (cont. ) n centred interval q an interval containing the value of x in which we are interested
Method for Determining IROC n n n easiest way is with a centred interval you must “look” on both sides of the point two successive approximations q n we want our ∆x or “h” to be as small as possible, (∆x < 0. 1 is usually safe) q n one is insufficient, you are looking for convergence at least on the second approximation want to see if the difference quotient gets closer to a certain value as the size of the interval becomes smaller, 3 successive approximations allows us to perform more careful trend analysis
Graphically…
Example n Determine the IROC of f(x) = x 2 + 1 at x=2
Difference between AROC and IROC n AROC → over an interval n IROC → at a point q although technically IROC is an estimation in this course so it is over a small interval as an approximation to a point
Advanced Algebraic Method n n doesn’t use actual numerical values of h or ∆x for the interval but is based on the idea that the size of the interval becomes infinitely small in size requires solid algebraic skills relies on the difference quotient definition allows you to calculate the exact IROC at a point and avoid an estimation
Example n Determine the exact IROC of f(x) = x 2 + 1 at x=2
What do I need to know? n you MUST be able to estimate the instantaneous rate of change of a function at a point via the method of successive approximations
Homework n n § 2. 2 p. 85 #1 -4, 6, 7, 9, 10, 12, 15 Reading p. 89 -91
- Slides: 18