(eBook PDF) Introductory Mathematics for Engineering Applications – Digital Ebook – Instant Delivery Download

Product details:

• ISBN-10 ‏ : ‎ 1118141806
• ISBN-13 ‏ : ‎ 978-1118141809
• Author: Kuldip Rattan, Nathan Klingbeil

Rattan and Klingbeil’s Introductory Mathematics for Engineering Applications is designed to help improve engineering student success through application-driven, just-in-time engineering math instruction. Intended to be taught by engineering faculty rather than math faculty, the text emphasizes using math to solve engineering problems instead of focusing on derivations and theory. This text implements an applied approach to teaching math concepts that are essential to introductory engineering courses that has been proven to improve the retention of students in engineering majors from the first to second year and beyond.
Table contents:

1 STRAIGHT LINES IN ENGINEERING 1

1.1 Vehicle during Braking 1

1.2 Voltage–Current Relationship in a Resistive Circuit 3

1.3 Force–Displacement in a Preloaded Tension Spring 6

1.4 Further Examples of Lines in Engineering 7

Problems 18

2 QUADRATIC EQUATIONS IN ENGINEERING 31

2.1 A Projectile in a Vertical Plane 31

2.2 Current in a Lamp 35

2.3 Equivalent Resistance 36

2.4 Further Examples of Quadratic Equations in Engineering 38

Problems 50

3 TRIGONOMETRY IN ENGINEERING 61

3.1 Introduction 61

3.2 One-Link Planar Robot 61

3.2.1 Kinematics of One-Link Robot 61

3.2.2 Inverse Kinematics of One-Link Robot 69

3.3 Two-Link Planar Robot 73

3.3.1 Direct Kinematics of Two-Link Robot 74

3.3.2 Inverse Kinematics of Two-Link Robot 76

3.3.3 Further Examples of Two-Link Planar Robot 81

3.4 Further Examples of Trigonometry

in Engineering 91

Problems 99

4 TWO-DIMENSIONAL  VECTORS IN ENGINEERING 107

4.1 Introduction 107

4.2 Position Vector in Rectangular Form 108

4.3 Position Vector in Polar Form 108

4.4 Vector Addition 111

4.4.1 Examples of Vector Addition in Engineering 112

Problems 124

5 COMPLEX NUMBERS IN ENGINEERING 134

5.1 Introduction 134

5.2 Position of One-Link Robot as

a Complex Number 135

5.3 Impedance of R, L, and C as a Complex Number 136

5.3.1 Impedance of a Resistor R 136

5.3.2 Impedance of an Inductor L 136

5.3.3 Impedance of a Capacitor C 137

5.4 Impedance of a Series RLC Circuit 137

5.5 Impedance of R and L Connected in Parallel 139

5.6 Armature Current in a DC Motor 141

5.7 Further Examples of Complex Numbers in Electric Circuits 143

5.8 Complex Conjugate 148

Problems 149

6 SINUSOIDS IN ENGINEERING 160

6.1 One-Link Planar Robot as a Sinusoid 160

6.2 Angular Motion of the One-Link Planar Robot 163

6.2.1 Relations between Frequency and Period 164

6.3 Phase Angle, Phase Shift, and Time Shift 165

6.4 General Form of a Sinusoid 167

6.5 Addition of Sinusoids of the Same Frequency 169

Problems 176

7 SYSTEMS OF EQUATIONS IN ENGINEERING 188

7.1 Introduction 188

7.2 Solution of a Two-Loop Circuit 188

7.3 Tension in Cables 193

7.4 Further Examples of Systems of Equations in Engineering 196

Problems 210

8 DERIVATIVES IN ENGINEERING 223

8.1 Introduction 223

8.1.1 What Is a Derivative? 223

8.2 Maxima and Minima 226

8.3 Applications of Derivatives in Dynamics 230

8.3.1 Position, Velocity, and Acceleration 230

8.4 Applications of Derivatives in Electric Circuits 245

8.4.1 Current and Voltage in an Inductor 248

8.4.2 Current and Voltage in a Capacitor 252

8.5 Applications of Derivatives in Strength of Materials 255

8.5.1 Maximum Stress under Axial Loading 261

8.6 Further Examples of Derivatives in Engineering 265

Problems 270

9 INTEGRALS IN ENGINEERING 282

9.1 Introduction: The Asphalt Problem 282

9.2 Concept of Work 287

9.3 Application of Integrals in Statics 290

9.3.1 Center of Gravity (Centroid) 290

9.3.2 Alternate Definition of the Centroid 298

9.4 Distributed Loads 300

9.4.1 Hydrostatic Pressure on a Retaining Wall 301

9.4.2 Distributed Loads on Beams: Statically Equivalent Loading 302

9.5 Applications of Integrals in Dynamics 307

9.5.1 Graphical Interpretation 313

9.6 Applications of Integrals in Electric Circuits 319

9.6.1 Current, Voltage, and Energy Stored in a Capacitor 319

9.7 Current and Voltage in an Inductor 328

9.8 Further Examples of Integrals in Engineering 333

Problems 342

10 DIFFERENTIAL EQUATIONS IN ENGINEERING 354

10.1 Introduction: The Leaking Bucket 354

10.2 Differential Equations 355

10.3 Solution of Linear DEQ with Constant Coefficients 356

10.4 First-Order Differential Equations 357

10.5 Second-Order Differential Equations 383

10.5.1 Free Vibration of a Spring–Mass System 383

10.5.2 Forced Vibration of a Spring–Mass System 387

10.5.3 Second-Order LC Circuit 394

Problems 397

11 PROBABILITY AND STATISTICS IN ENGINEERING 409

11.1 Introduction 409

11.2 Quality Control Probability in Manufacturing 409

11.3 Manufacturing Tolerance of Resistors 412

11.4 Probability of Accepting/Rejecting

Manufactured Resistors 414

Problems 420

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