d³y = 0. 140. If y = (x + 1)(x + 2)(x + 3)(x + 4), then dx %3D 141. If f'(c) and g'(c) are zero and h(x) = f(x)g(x), then h'(c) = 0. %3D 142. If the position function of an object is linear, then its acceleration is zero. 143. The second derivative represents the rate of change of the first derivative. 144. The function f(x) = sin x + c satisfies f(n) = f(n+4) for all integers n 2 1.
d³y = 0. 140. If y = (x + 1)(x + 2)(x + 3)(x + 4), then dx %3D 141. If f'(c) and g'(c) are zero and h(x) = f(x)g(x), then h'(c) = 0. %3D 142. If the position function of an object is linear, then its acceleration is zero. 143. The second derivative represents the rate of change of the first derivative. 144. The function f(x) = sin x + c satisfies f(n) = f(n+4) for all integers n 2 1.
Calculus: Early Transcendentals
8th Edition
ISBN:9781285741550
Author:James Stewart
Publisher:James Stewart
Chapter1: Functions And Models
Section: Chapter Questions
Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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Please solve 140,142,144
Transcribed Image Text:d³y
= 0.
140. If y = (x + 1)(x + 2)(x + 3)(x + 4), then
dx
%3D
141. If f'(c) and g'(c) are zero and h(x) = f(x)g(x), then h'(c) = 0.
%3D
142. If the position function of an object is linear, then its
acceleration is zero.
143. The second derivative represents the rate of change of the
first derivative.
144. The function f(x) = sin x + c satisfies f(n) = f(n+4) for all
integers n 2 1.
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