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微积分原理（上）

作者: 崔建莲

出版社: 电子工业出版社

出版时间: 2023-07

版次: 1

ISBN: 9787121458392

定价: 69.00

装帧: 其他

页数: 320页

分类: 教材教辅考试>教材>大学教材>工程技术

1人买过

微积分是理工科高等学校非数学类专业最基础、重要的一门核心课程。许多后继数学课程及物理和各种工程学课程都是在微积分课程的基础上展开的，因此学好这门课程对每一位理工科学生来说都非常重要。本书在传授微积分知识的同时，注重培养学生的数学思维、语言逻辑和创新能力，弘扬数学文化，培养科学精神。本套教材分上、下两册。上册内容包括实数集与初等函数、数列极限、函数极限与连续、导数与微分、微分学基本定理及应用、不定积分、定积分、广义积分和常微分方程。下册内容包括多元函数的极限与连续、多元函数微分学及其应用、重积分、曲线积分、曲面积分、数项级数、函数项级数、傅里叶级数和含参积分。崔建莲，清华大学数学系副教授，主要研究方向为算子代数、算子理论及在量子信息中的应用，发表学术论文60多篇，SCI收录50多篇。目录

第1 章实数集与初等函数··················1

1.1 实数集····································1

1.1.1 集合及其运算························1

1.1.2 映射···································3

1.1.3 可数集································3

1.1.4 实数集的性质························5

1.1.5 戴德金原理···························8

1.1.6 确界原理·····························8

习题1.1····································.10

1.2 初等函数······························.11

1.2.1 函数的概念························.11

1.2.2 函数的一些特性··················.12

1.2.3 函数的运算························.13

1.2.4 基本初等函数·····················.14

1.2.5 反函数及其存在条件·············.18

1.2.6 反三角函数························.19

*1.2.7 双曲函数和反双曲函数··········.22

*1.2.8 双曲函数与三角函数之间

的联系·····························.24

习题1.2····································.24

第2 章数列极限····························.27

2.1 数列极限的概念·····················.27

习题2.1····································.30

2.2 数列极限的性质·····················.31

习题2.2····································.35

2.3 几类特殊的数列·····················.36

2.3.1 无穷大数列与无穷小数列·······.36

2.3.2 无穷大数列与无界数列··········.36

2.3.3 Stolz 定理·························.38

习题2.3 ···································.40

2.4 实数连续性定理····················.41

2.4.1 单调有界定理·····················.41

2.4.2 闭区间套定理·····················.43

2.4.3 Bolzano-Weierstrass 定理·········.44

2.4.4 柯西收敛准则·····················.45

*2.4.5 有限覆盖定理·····················.47

*2.4.6 聚点定理··························.48

习题2.4 ···································.48

*2.5 上极限与下极限···················.50

习题2.5 ···································.54

第3 章函数极限与连续··················.55

3.1 函数极限的概念····················.55

3.1.1 函数在一点的极限···············.55

3.1.2 函数在无穷远处的极限··········.58

习题3.1 ···································.58

3.2 函数极限的性质及运算···········.59

3.2.1 函数极限的性质··················.59

3.2.2 函数极限的四则运算·············.60

3.2.3 复合函数的极限··················.62

习题3.2 ···································.62

3.3 函数极限的存在条件··············.63

3.3.1 函数极限与数列极限的关系·····.63

3.3.2 两个重要极限·····················.65

3.3.3 无穷大量与无穷小量·············.67

3.3.4 等价无穷小量代换求极限········.69

习题3.3····································.71

3.4 函数的连续···························.73

3.4.1 函数连续的概念··················.73

3.4.2 间断点及其分类··················.74

3.4.3 连续函数的局部性质·············.78

习题3.4····································.78

3.5 闭区间上连续函数的性质········.79

3.5.1 闭区间上连续函数的基本性质··.79

3.5.2 反函数的连续性··················.82

3.5.3 一致连续性························.83

习题3.5····································.86

第4 章导数与微分·························.89

4.1 导数的概念···························.89

4.1.1 导数概念的引出··················.89

4.1.2 函数可导的条件与性质··········.91

习题4.1····································.92

4.2 求导法则······························.94

4.2.1 导数的四则运算法则·············.94

4.2.2 反函数求导法则··················.96

4.2.3 复合函数的导数——链式法则···.97

4.2.4 隐函数求导法则··················.98

4.2.5 参数方程求导法则················.99

习题4.2····································102

4.3 函数的微分···························103

4.3.1 可微的概念························103

4.3.2 可微与可导的关系················104

4.3.3 微分在函数近似计算中的应用··105

4.3.4 微分的运算法则··················106

习题4.3····································106

4.4 高阶导数与高阶微分··············106

4.4.1 高阶导数·························.107

4.4.2 高阶微分·························.109

4.4.3 复合函数的微分·················.109

习题4.4 ··································.110

第5 章微分学基本定理及应用········.112

5.1 微分中值定理······················.112

5.1.1 极值的概念与费马定理·········.112

5.1.2 微分中值定理····················.113

习题5.1 ··································.118

5.2 洛必达法则··························.120

5.2.1 0

0

型不定式极限·················.120

5.2.2 ∞

∞

型不定式极限················.123

5.2.3 其他类型不定式极限············.125

习题5.2 ··································.126

5.3 泰勒公式及应用···················.127

5.3.1 泰勒公式·························.128

5.3.2 基本初等函数的展开式·········.130

5.3.3 泰勒公式的应用·················.134

习题5.3 ··································.138

5.4 单调性与极值······················.140

5.4.1 函数的单调性····················.140

5.4.2 函数取极值的条件··············.142

习题5.4 ··································.145

5.5 函数的凸性与函数作图··········.147

5.5.1 函数的凸性······················.147

5.5.2 曲线的渐近性····················.152

5.5.3 函数作图·························.153

习题5.5 ··································.155

*5.6 方程求根的牛顿迭代公式·····.155

第6 章不定积分···························.160

6.1 原函数与不定积分················.160

6.1.1 原函数与6
内容简介:
微积分是理工科高等学校非数学类专业最基础、重要的一门核心课程。许多后继数学课程及物理和各种工程学课程都是在微积分课程的基础上展开的，因此学好这门课程对每一位理工科学生来说都非常重要。本书在传授微积分知识的同时，注重培养学生的数学思维、语言逻辑和创新能力，弘扬数学文化，培养科学精神。本套教材分上、下两册。上册内容包括实数集与初等函数、数列极限、函数极限与连续、导数与微分、微分学基本定理及应用、不定积分、定积分、广义积分和常微分方程。下册内容包括多元函数的极限与连续、多元函数微分学及其应用、重积分、曲线积分、曲面积分、数项级数、函数项级数、傅里叶级数和含参积分。
作者简介:
崔建莲，清华大学数学系副教授，主要研究方向为算子代数、算子理论及在量子信息中的应用，发表学术论文60多篇，SCI收录50多篇。
目录:
目录

第1 章实数集与初等函数··················1

1.1 实数集····································1

1.1.1 集合及其运算························1

1.1.2 映射···································3

1.1.3 可数集································3

1.1.4 实数集的性质························5

1.1.5 戴德金原理···························8

1.1.6 确界原理·····························8

习题1.1····································.10

1.2 初等函数······························.11

1.2.1 函数的概念························.11

1.2.2 函数的一些特性··················.12

1.2.3 函数的运算························.13

1.2.4 基本初等函数·····················.14

1.2.5 反函数及其存在条件·············.18

1.2.6 反三角函数························.19

*1.2.7 双曲函数和反双曲函数··········.22

*1.2.8 双曲函数与三角函数之间

的联系·····························.24

习题1.2····································.24

第2 章数列极限····························.27

2.1 数列极限的概念·····················.27

习题2.1····································.30

2.2 数列极限的性质·····················.31

习题2.2····································.35

2.3 几类特殊的数列·····················.36

2.3.1 无穷大数列与无穷小数列·······.36

2.3.2 无穷大数列与无界数列··········.36

2.3.3 Stolz 定理·························.38

习题2.3 ···································.40

2.4 实数连续性定理····················.41

2.4.1 单调有界定理·····················.41

2.4.2 闭区间套定理·····················.43

2.4.3 Bolzano-Weierstrass 定理·········.44

2.4.4 柯西收敛准则·····················.45

*2.4.5 有限覆盖定理·····················.47

*2.4.6 聚点定理··························.48

习题2.4 ···································.48

*2.5 上极限与下极限···················.50

习题2.5 ···································.54

第3 章函数极限与连续··················.55

3.1 函数极限的概念····················.55

3.1.1 函数在一点的极限···············.55

3.1.2 函数在无穷远处的极限··········.58

习题3.1 ···································.58

3.2 函数极限的性质及运算···········.59

3.2.1 函数极限的性质··················.59

3.2.2 函数极限的四则运算·············.60

3.2.3 复合函数的极限··················.62

习题3.2 ···································.62

3.3 函数极限的存在条件··············.63

3.3.1 函数极限与数列极限的关系·····.63

3.3.2 两个重要极限·····················.65

3.3.3 无穷大量与无穷小量·············.67

3.3.4 等价无穷小量代换求极限········.69

习题3.3····································.71

3.4 函数的连续···························.73

3.4.1 函数连续的概念··················.73

3.4.2 间断点及其分类··················.74

3.4.3 连续函数的局部性质·············.78

习题3.4····································.78

3.5 闭区间上连续函数的性质········.79

3.5.1 闭区间上连续函数的基本性质··.79

3.5.2 反函数的连续性··················.82

3.5.3 一致连续性························.83

习题3.5····································.86

第4 章导数与微分·························.89

4.1 导数的概念···························.89

4.1.1 导数概念的引出··················.89

4.1.2 函数可导的条件与性质··········.91

习题4.1····································.92

4.2 求导法则······························.94

4.2.1 导数的四则运算法则·············.94

4.2.2 反函数求导法则··················.96

4.2.3 复合函数的导数——链式法则···.97

4.2.4 隐函数求导法则··················.98

4.2.5 参数方程求导法则················.99

习题4.2····································102

4.3 函数的微分···························103

4.3.1 可微的概念························103

4.3.2 可微与可导的关系················104

4.3.3 微分在函数近似计算中的应用··105

4.3.4 微分的运算法则··················106

习题4.3····································106

4.4 高阶导数与高阶微分··············106

4.4.1 高阶导数·························.107

4.4.2 高阶微分·························.109

4.4.3 复合函数的微分·················.109

习题4.4 ··································.110

第5 章微分学基本定理及应用········.112

5.1 微分中值定理······················.112

5.1.1 极值的概念与费马定理·········.112

5.1.2 微分中值定理····················.113

习题5.1 ··································.118

5.2 洛必达法则··························.120

5.2.1 0

0

型不定式极限·················.120

5.2.2 ∞

∞

型不定式极限················.123

5.2.3 其他类型不定式极限············.125

习题5.2 ··································.126

5.3 泰勒公式及应用···················.127

5.3.1 泰勒公式·························.128

5.3.2 基本初等函数的展开式·········.130

5.3.3 泰勒公式的应用·················.134

习题5.3 ··································.138

5.4 单调性与极值······················.140

5.4.1 函数的单调性····················.140

5.4.2 函数取极值的条件··············.142

习题5.4 ··································.145

5.5 函数的凸性与函数作图··········.147

5.5.1 函数的凸性······················.147

5.5.2 曲线的渐近性····················.152

5.5.3 函数作图·························.153

习题5.5 ··································.155

*5.6 方程求根的牛顿迭代公式·····.155

第6 章不定积分···························.160

6.1 原函数与不定积分················.160

6.1.1 原函数与6

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微积分原理（上）

内容简介:

作者简介:

目录: