A FIRST COURSE IN THE DESIGN OF EXPERIMENTS A LINEAR MODELS APPROACH

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Most texts on experimental design fall into one of two distinct categories. There are theoretical works with few applications and minimal discussion on design, and there are methods books with limited or no discussion of the underlying theory. Furthermore, most of these tend to either treat the analysis of each design separately with little attempt to unify procedures, or they will integrate the analysis for the designs into one general technique. A First Course in the Design of Experiments: A Linear Models Approach stands apart. It presents theory and methods, emphasizes both the design selection for an experiment and the analysis of data, and integrates the analysis for the various designs with the general theory for linear models. The authors begin with a general introduction then lead students through the theoretical results, the various design models, and the analytical concepts that will enable them to analyze virtually any design. Rife with examples and exercises, the text also encourages using computers to analyze data. The authors use the SAS software package throughout the book, but also demonstrate how any regression program can be used for analysis. With its balanced presentation of theory, methods, and applications and its highly readable style, A First Course in the Design of Experiments proves ideal as a text for a beginning graduate or upper-level undergraduate course in the design and analysis of experiments.

A First Course in Differential Equations with Modeling Applications (Asia Edition) (12版)

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【簡介】 Straightforward and easy to read, Zill's A FIRST COURSE IN DIFFERENTIAL EQUATIONS WITH MODELING APPLICATIONS, 12th EDITION, gives you a thorough overview of the topics typically taught in a first course in differential equations. Your study of differential equations and its applications is supported by a bounty of pedagogical aids, including an abundance of examples, explanations, "Remarks" boxes, definitions and more. 【目錄】 Ch 1 Introduction to Differential Equations Ch 2 First-Order Differential Equations Ch 3 Modeling with First-Order Differential Equations Ch 4 Higher-Order Diffential Equations Ch 5 Modeling with Higher-Order Differential Equations Ch 6 Series Solutions of Linear Equations Ch 7 The Laplace Transform Ch 8 Systems of Lineasr Differential Equations Ch 9 Numerical Solutions of Ordinary Differential Equations

APPLIED ANALOG ELECTRONICS: A FIRST COURSE IN ELEC

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"This textbook is for a first course on electronics. It assumes no prior electronics experience, but does assume that students have had calculus 1 (single-variable differential calculus) and high-school physics. A key idea of the course is that students need a lot of design experience and hands-on work, rather than a lot of theory. The course is centered around the labs, which are a mix of design labs and measurement/modeling labs. This unique volume takes students from knowing no electronics to being able to design and build amplifier and filter circuits for connecting sensors to microcontrollers within 20 weeks. Students design a digital thermometer, a blood-pressure meter, an optical pulse monitor, an EKG, an audio preamplifier, and a class-D power amplifier. They also learn how to measure and characterize components, including impedance spectroscopy of a loudspeaker and of electrochemical electrodes. Related Link(s) Press Release — Hands-on approach to learning analog electronics opens design to more students Request Inspection Copy Sample Chapter(s) Preface FRONT MATTER Chapter 1: Why an Electronics Class? Chapter 2: Background Material Chapter 22: Optoelectronics Chapter 25: Lab 6: Optical Pulse Monitor Chapter 41: Electrocardiograms (EKGs) Chapter 42: Lab 13: EKG BACK MATTER Contents: Why an Electronics Class? Background Material Lab 1: Setting Up Voltage, Current, and Resistance Voltage Dividers and Resistance-based Sensors Signals Design Report Guidelines Lab 2: Measuring Temperature Sampling and Aliasing Impedance: Capacitors Passive RC Filters Function Generator Debugging Lab 3: Sampling and Aliasing Oscilloscopes Hysteresis Lab 4: Hysteresis Amplifiers Operational Amplifiers Pressure Sensors Lab 5: Strain-Gauge Pressure Sensor Optoelectronics Transimpedance Amplifier Active Filters Lab 6: Optical Pulse Monitor Microphones Lab 7: Electret Microphone Impedance: Inductors Loudspeakers Lab 8: Loudspeaker Modeling Lab 9: Low-Power Audio Amplifier Field-effect Transistors Comparators Lab 10: Measuring FETs Class-D Power Amplifier Triangle-Wave Oscillator Lab 11: Class-D Power Amp Electrodes Lab 12: Electrodes Instrumentation Amps Electrocardiograms (EKGs) Lab 13: EKG PteroDAQ Documentation Study Sheet References Index Readership: Researchers, professionals, academics, undergraduate and graduate students in electrical & electronic engineering, and circuits and systems."