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Linear Approximation AP Calculus Exam Review

What is linear approximation? Basically, its a method from calculus used to straighten out the graph of a function near a particular point. Scientists often use linear approximation to understand complicated relationships among variables. In this review article, well explore the methods and applications of linear approximation. Well also take a look at plenty of examples along the way to better prepare you for the AP Calculus exams. Linear Approximation and Tangent Lines By definition the linear approximation for a function f(x) at a point x = a is simply the equation of the tangent line to the curve at that point. And that means that derivatives are key! (Check out How to Find the Slope of a Line Tangent to a Curve or Is the Derivative of a Function the Tangent Line? for some background material.) Three different tangent lines for a curve y = f(x). Formula for the Linear Approximation Given a point x = a and a function f that is differentiable at a, the linear approximation L(x) for f at x = a is: L(x) = f(a) + f(a)(x a) The main idea behind linearization is that the function L(x) does a pretty good job approximating values of f(x), at least when x is near a. In other words, L(x) f(x) whenever x a. Example 1 Linearizing a Parabola Find the linear approximation of the parabola f(x) = x2 at the point x = 1. A. x2 + 1 B. 2x + 1 C. 2x 1 D. 2x 2 Solution C. Note that f(x) = 2x in this case. Using the formula above with a = 1, we have: L(x) = f(1) + f(1)(x 1) L(x) = 12 + 2(1)(x 1) = 2x 1 Follow-Up: Interpreting the Results Clearly, the graph of the parabola f(x) = x2 is not a straight line. However, near any particular point, say x = 1, the tangent line does a pretty good job following the direction of the curve. The parabola y = x2 can be approximated by the line y = 2x 1 when x 1. How good is this approximation? Well, at x = 1, its exact! L(1) = 2(1) 1 = 1, which is the same as f(1) = 12 = 1. But the further away you get from 1, the worse the approximation becomes. xf(x) = x2L(x) = 2x - 1 1.11.211.2 1.21.441.4 1.52.252 243 Approximating Using Differentials The formula for linear approximation can also be expressed in terms of differentials. Basically, a differential is a quantity that approximates a (small) change in one variable due to a (small) change in another. The differential of x is dx, and the differential of y is dy. Based upon the formula dy/dx = f(x), we may identify: dy = f(x) dx The related formula allows one to approximate near a particular fixed point: f(x + dx) y + dy Example 2 Using Differentials With Limited Information Suppose g(5) = 30 and g(5) = -3. Estimate the value of g(7). A. 24 B. 27 C. 28 D. 33 Solution A. In this example, we do not know the expression for the function g. Fortunately, we dont need to know! First, observe that the change in x is dx = 7 5 = 2. Next, estimate the change in y using the differential formula. dy = g(x) dx = g(5) 2 = (-3)(2) = -6. Finally, put it all together: g(5 + 2) y + dy = g(5) + (-6) = 30 + (-6) = 24 Example 3 Using Differentials to Approximate a Value Approximate using differentials. Express your answer as a decimal rounded to the nearest hundred-thousandth. Solution 1.03333. Here, we should realize that even though the cube root of 1.1 is not easy to compute without a calculator, the cube root of 1 is trivial. So lets use a = 1 as our basis for estimation. Consider the function . Find its derivative (well need it for the approximation formula). Then, using the differential, , we can estimate the required quantity. Exact Change Versus Approximate Change Sometimes we are interested in the exact change of a functions values over some interval. Suppose x changes from x1 to x2. Then the exact change in f(x) on that interval is: y = f(x2) f(x1) We also use the Delta notation for change in x. In fact, x and dx typically mean the same thing: x = dx = x2 x1 However, while y measures the exact change in the functions value, dy only estimates the change based on a derivative value. Example 4 Comparing Exact and Approximate Values Let f(x) = cos(3x), and let L(x) be the linear approximation to f at x = /6. Which expression represents the absolute error in using L to approximate f at x = /12? A. /6 2/2 B. /4 2/2 C. 2/2 /6 D. 2/2 /4 Solution B. Absolute error is the absolute difference between the approximate and exact values, that is, E = | f(a) L(a) |. Equivalently, E = | y dy |. Lets compute dy ( = f(x) dx ). Here, the change in x is negative. dx = /12 /6 = -/12. Note that by the Chain Rule, we obtain: f(x) = -3 sin(3x). Putting it all together, dy = -3 sin(3 /6 ) (-/12) = -3 sin(/2) (-/12) = 3/12 = /4 Ok, next we compute the exact change. y = f(/12) f(/6) = cos(/4) cos(/2) = 2/2 Lastly, we take the absolute difference to compute the error, E = | 2/2 /4 | = /4 2/2. Application Finding Zeros Linear approximations also serve to find zeros of functions. In fact Newtons Method (see AP Calculus Review: Newtons Method for details) is nothing more than repeated linear approximations to target on to the nearest root of the function. The method is simple. Given a function f, suppose that a zero for f is located near x = a. Just linearize f at x = a, producing a linear function L(x). Then the solution to L(x) = 0 should be fairly close to the true zero of the original function f. Example 5 Estimating Zeros Estimate the zero of the function using a tangent line approximation at x = -1. A. -1.48 B. -1.53 C. -1.62 D. -1.71 Solution D. Remember, The purpose of this question is to estimate the zero. First of all, the tangent line approximation is nothing more than a linearization. Well need to know the derivative: Then find the expression for L(x). Note that g(-1) 2.13 and g(-1) = 3. L(x) = 2.13 + 3(x (-1)) = 5.13 + 3x. Finally to find the zero, set L(x) = 0 and solve for x 0 = 5.13 + 3x x = -5.13/3 = -1.71

The Power of Persuasive Essay Examples

The Power of Persuasive Essay ExamplesPresenting persuasive essay examples is a smart way to grab the attention of your reader. This is an important skill that many people neglect when they start writing, because they tend to just copy from other examples without thinking. Persuasive essay examples can be found in many different areas.Commonplace books and magazines have countless examples of persuasive essays. These are often public speeches or messages to the media. But if you look around you, you will see people writing everyday about a myriad of topics. Not all of them are writers, but a good number of them write daily.It is easier to come up with persuasive essay examples than you might think. While learning a new subject is exciting, writing about it is even more so. As a result, you are bound to come across many persuasive examples in your writing routine.This is a common practice among business owners and teachers alike. Many things come to mind immediately. But there are als o persuasive essay examples that come to mind as well.For example, there are not many teachers who have not written about an experience that came to them while working at a particular place or time. Or, there are not many business owners who haven't written about an experience that they had while they were employed by a particular company.When you study these everyday situations, it is easy to come up with a point that they can use. But as you write more, you will realize that most of these points will never get used and therefore will have very little effect on your readers. This can become frustrating, but remember that there are lots of examples around you.When you really want to take advantage of persuasive essay examples, try to find a topic that you are interested in. Once you have decided on a topic, read a variety of persuasive essay examples and see which ones appeal to you. If you are reading something that is relevant to you, chances are that you will write it yourself.Th e point is, that the key to succeeding in this area is learning persuasive essay examples. You need to know which ones appeal to you, and you need to do some research to find them. As a result, the best way to succeed in this area is to have a few different topics that you can work on.