Chapter 4 | Applications of Derivatives
389
181. y =5+ | x | over [−1, 1] For the following exercises, consider the roots of the equation. 182. Show that the equation y = x 3 +3 x 2 +16 has exactly one real root. What is it? 183. Find the conditions for exactly one root (double root) for the equation y = x 2 + bx + c 184. Find the conditions for y = e x − b to have one root. Is it possible to have more than one root? For the following exercises, use a calculator to graph the function over the interval [ a , b ] and graph the secant line from a to b . Use the calculator to estimate all values of c as guaranteed by the Mean Value Theorem. Then, find the exact value of c , if possible, or write the final equation and use a calculator to estimate to four digits.
185. [T] y = tan( πx ) over ⎡
⎤ ⎦
1 4
⎣ − 1 4 ,
186. [T] y = 1
over [0, 3]
x +1
187. [T] y = | x 2 +2 x −4 | over [−4, 0] 188. [T] y = x + 1 x over ⎡ ⎣ 1 2 , 4 ⎤ ⎦
189. [T] y = x +1+ 1 x 2
over [3, 8]
190. At 10:17 a.m., you pass a police car at 55 mph that is stopped on the freeway. You pass a second police car at 55 mph at 10:53 a.m., which is located 39 mi from the first police car. If the speed limit is 60 mph, can the police cite you for speeding? 191. Two cars drive from one spotlight to the next, leaving at the same time and arriving at the same time. Is there ever a time when they are going the same speed? Prove or disprove. 192. Show that y = sec 2 x and y = tan 2 x have the same derivative. What can you say about y = sec 2 x −tan 2 x ? 193. Show that y =csc 2 x and y =cot 2 x have the same derivative. What can you say about y =csc 2 x −cot 2 x ?
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