10.1 the product rule · mth 251 lesson 10. product and quotient rules 10.3 product and quotient...
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![Page 1: 10.1 The Product Rule · MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES 10.3 Product and Quotient Rules with Trigonometric Func-tions Theorem 10.3.1 d dx (tan(x))=sec2(x).Proof Example](https://reader034.vdocuments.mx/reader034/viewer/2022051322/603036f769261725b13381de/html5/thumbnails/1.jpg)
MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES
10.1 The Product Rule
Theorem 10.1.1
The product rule for differentiation:
d
dx[f(x)g(x)] = f(x)
d
dx[g(x)] + g(x)
d
dx[f(x)] = f(x)g′(x) + g(x)f ′(x)
.
Proof
Example 10.1.1 Use the product rule to differentiate the following functions.
a. f(x) = xex b. f(t) =√t(a+ bt)
Instructor: Noah Dear Page 44
![Page 2: 10.1 The Product Rule · MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES 10.3 Product and Quotient Rules with Trigonometric Func-tions Theorem 10.3.1 d dx (tan(x))=sec2(x).Proof Example](https://reader034.vdocuments.mx/reader034/viewer/2022051322/603036f769261725b13381de/html5/thumbnails/2.jpg)
MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES
10.2 The Quotient Rule
Theorem 10.2.1
The quotient rule for differentiation:
d
dx
[f(x)
g(x)
]=
g(x)d
dx[f(x)]− f(x)
d
dx[g(x)]
[g(x)]2=
g(x)f ′(x)− f(x)g′(x)(g(x))2
Proof
Example 10.2.1 Use the quotient rule to find the derivative of the following function.
y =x2 + x− 2
x3 + 6
Instructor: Noah Dear Page 45
![Page 3: 10.1 The Product Rule · MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES 10.3 Product and Quotient Rules with Trigonometric Func-tions Theorem 10.3.1 d dx (tan(x))=sec2(x).Proof Example](https://reader034.vdocuments.mx/reader034/viewer/2022051322/603036f769261725b13381de/html5/thumbnails/3.jpg)
MTH 251 LESSON 10. PRODUCT AND QUOTIENT RULES
10.3 Product and Quotient Rules with Trigonometric Func-
tions
Theorem 10.3.1
d
dx(tan(x)) = sec2(x).
Proof
Example 10.3.1 Use the quotient rule AND product rule together to find the following derivative.
d
dx
(x3ex
cos(x)
)
Instructor: Noah Dear Page 46