| Record ID | marc_columbia/Columbia-extract-20221130-026.mrc:74403224:10001 |
| Source | marc_columbia |
| Download Link | /show-records/marc_columbia/Columbia-extract-20221130-026.mrc:74403224:10001?format=raw |
LEADER: 10001cam a2200625 i 4500
001 12835930
005 20171016134549.0
008 140409s2014 flua b 001 0 eng
010 $a 2014013192
015 $aGBB495021$2bnb
016 7 $a016857864$2Uk
019 $a883343431$a953002305
020 $a9781466594968$q(hardback ;$qacid-free paper)
020 $a1466594969$q(hardback ;$qacid-free paper)
035 $a(OCoLC)ocn869264382
035 $a(OCoLC)869264382$z(OCoLC)883343431$z(OCoLC)953002305
035 $a(NNC)12835930
040 $aDLC$beng$erda$cDLC$dYDX$dBTCTA$dYDXCP$dOCLCF$dUKMGB$dAU@$dOCLCQ$dOCLCO$dOCLCQ$dTOH$dBDX$dPHUST
042 $apcc
050 00 $aQC39$b.D86 2014
082 00 $a530.8$223
084 $aTEC009070$aTEC064000$2bisacsh
100 1 $aDunn, Patrick F.
245 10 $aMeasurement and data analysis for engineering and science /$cPatrick F. Dunn, University of Notre Dame, Indiana, USA.
250 $aThird edition.
264 1 $aBoca Raton :$bCRC Press, Taylor & Francis,$c[2014]
300 $axv, 616 pages :$billustrations ;$c25 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
520 $a"Based on instructor feedback, this Third Edition is a modular work, allowing greater flexibility in adoption. For the first time in such a text, experiments and demonstrations using smart phones and other handheld devices are included, along with more traditional technologies. Coverage of sensors and computer-based techniques for data collection and analysis has increased, as has the number of MATLAB and Simulink applications. A solutions manual, PowerPoint®, lecture notes, and a website with labs, computer code, and chapter outlines are available with qualifying course adoption"--$cProvided by publisher.
504 $aIncludes bibliographical references and index.
505 0 $aMachine generated contents note: 1. Fundamentals of Experimentation -- 1.1. Introduction -- 2. Experiments -- 2.1. Chapter Overview -- 2.2. Experimental Approach -- 2.3. Role of Experiments -- 2.4. The Experiment -- 2.5. Classification of Experiments -- 2.6. Plan for Successful Experimentation -- 2.7. Hypothesis Testing* -- 2.8. Design of Experiments* -- 2.9. Factorial Design* -- 2.10. Problems -- Bibliography -- 3. Fundamental Electronics -- 3.1. Chapter Overview -- 3.2. Concepts and Definitions -- 3.2.1. Charge -- 3.2.2. Current -- 3.2.3. Force -- 3.2.4. Field -- 3.2.5. Potential -- 3.2.6. Resistance and Resistivity -- 3.2.7. Power -- 3.2.8. Capacitance -- 3.2.9. Inductance -- 3.3. Circuit Elements -- 3.3.1. Resistor -- 3.3.2. Capacitor -- 3.3.3. Inductor -- 3.3.4. Transistor -- 3.3.5. Voltage Source -- 3.3.6. Current Source -- 3.4. RLC Combinations -- 3.5. Elementary DC Circuit Analysis -- 3.5.1. Voltage Divider -- 3.5.2. Electric Motor with Battery -- 3.5.3. Wheatstone Bridge.
505 0 $aContents note continued: 3.6. Elementary AC Circuit Analysis -- 3.7. Equivalent Circuits* -- 3.8. Meters* -- 3.9. Impedance Matching and Loading Error* -- 3.10. Electrical Noise* -- 3.11. Problems -- Bibliography -- 4. Measurement Systems: Sensors and Transducers -- 4.1. Chapter Overview -- 4.2. Measurement System Overview -- 4.3. Sensor Domains -- 4.4. Sensor Characteristics -- 4.5. Physical Principles of Sensors -- 4.6. Electric -- 4.6.1. Resistive -- 4.6.2. Capacitive -- 4.6.3. Inductive -- 4.7. Piezoelectric -- 4.8. Fluid Mechanic -- 4.9. Optic -- 4.10. Photoelastic -- 4.11. Thermoelectric -- 4.12. Electrochemical -- 4.13. Sensor Scaling* -- 4.14. Problems -- Bibliography -- 5. Measurement Systems: Other Components -- 5.1. Chapter Overview -- 5.2. Signal Conditioning, Processing, and Recording -- 5.3. Amplifiers -- 5.4. Filters -- 5.5. Analog-to-Digital Converters -- 5.6. Smart Measurement Systems -- 5.6.1. Sensors and Microcontroller Platforms -- 5.6.2. Arduino Microcontrollers.
505 0 $aContents note continued: 5.6.3. Wireless Transmission of Data -- 5.6.4. Using the MATLAB Programming Environment -- 5.6.5. Examples of Arduino Programming using Simulink -- 5.7. Other Example Measurement Systems -- 5.8. Problems -- Bibliography -- 6. Measurement Systems: Calibration and Response -- 6.1. Chapter Overview -- 6.2. Static Response Characterization by Calibration -- 6.3. Dynamic Response Characterization -- 6.4. Zero-Order System Dynamic Response -- 6.5. First-Order System Dynamic Response -- 6.5.1. Response to Step-Input Forcing -- 6.5.2. Response to Sinusoidal-Input Forcing -- 6.6. Second-Order System Dynamic Response -- 6.6.1. Response to Step-Input Forcing -- 6.6.2. Response to Sinusoidal-Input Forcing -- 6.7. Measurement System Dynamic Response -- 6.8. Problems -- Bibliography -- 7. Measurement Systems: Design-Stage Uncertainty -- 7.1. Chapter Overview -- 7.2. Design-Stage Uncertainty Analysis -- 7.3. Design-Stage Uncertainty Estimate of a Measurand.
505 0 $aContents note continued: 7.4. Design-Stage Uncertainty Estimate of a Result -- 7.5. Problems -- Bibliography -- 8. Signal Characteristics -- 8.1. Chapter Overview -- 8.2. Signal Classification -- 8.3. Signal Variables -- 8.4. Signal Statistical Parameters -- 8.5. Problems -- Bibliography -- 9. The Fourier Transform -- 9.1. Chapter Overview -- 9.2. Fourier Series of a Periodic Signal -- 9.3.Complex Numbers and Waves -- 9.4. Exponential Fourier Series -- 9.5. Spectral Representations -- 9.6. Continuous Fourier Transform -- 9.7. Continuous Fourier Transform Properties* -- 9.8. Discrete Fourier Transform -- 9.9. Fast Fourier Transform -- 9.10. Problems -- Bibliography -- 10. Digital Signal Analysis -- 10.1. Chapter Overview -- 10.2. Digital Sampling -- 10.3. Digital Sampling Errors -- 10.3.1. Aliasing -- 10.3.2. Amplitude Ambiguity -- 10.4. Windowing* -- 10.5. Determining a Sample Period -- 10.6. Problems -- Bibliography -- 11. Probability -- 11.1. Chapter Overview -- 11.2. Relation to Measurements.
505 0 $aContents note continued: 11.3. Basic Probability Concepts -- 11.3.1. Union and Intersection of Sets -- 11.3.2. Conditional Probability -- 11.4. Sample versus Population -- 11.5. Plotting Statistical Information -- 11.6. Probability Density Function -- 11.7. Various Probability Density Functions -- 11.7.1. Binomial Distribution -- 11.7.2. Poisson Distribution -- 11.8. Central Moments -- 11.9. Probability Distribution Function -- 11.10. Problems -- Bibliography -- 12. Statistics -- 12.1. Chapter Overview -- 12.2. Normal Distribution -- 12.3. Normalized Variables -- 12.4. Student's t Distribution -- 12.5. Rejection of Data -- 12.5.1. Single-Variable Outlier Determination -- 12.5.2. Paired-Variable Outlier Determination -- 12.6. Standard Deviation of the Means -- 12.7. Chi-Square Distribution -- 12.7.1. Estimating the True Variance -- 12.7.2. Establishing a Rejection Criterion -- 12.7.3.Comparing Observed and Expected Distributions -- 12.8. Pooling Samples* -- 12.9. Problems -- Bibliography.
505 0 $aContents note continued: 13. Uncertainty Analysis -- 13.1. Chapter Overview -- 13.2. Modeling and Experimental Uncertainties -- 13.3. Probabilistic Basis of Uncertainty -- 13.4. Identifying Sources of Error -- 13.5. Systematic and Random Errors -- 13.6. Quantifying Systematic and Random Errors -- 13.7. Measurement Uncertainty Analysis -- 13.8. Uncertainty Analysis of a Multiple-Measurement Result -- 13.9. Uncertainty Analyses for Other Measurement Situations -- 13.10. Uncertainty Analysis Summary -- 13.11. Finite-Difference Uncertainties -- 13.11.1. Derivative Approximation* -- 13.11.2. Integral Approximation* -- 13.11.3. Uncertainty Estimate Approximation* -- 13.12. Uncertainty Based upon Interval Statistics* -- 13.13. Problems -- Bibliography -- 14. Regression and Correlation -- 14.1. Chapter Overview -- 14.2. Least-Squares Approach -- 14.3. Least-Squares Regression Analysis* -- 14.4. Linear Analysis -- 14.5. Higher-Order Analysis* -- 14.6. Multi-Variable Linear Analysis*
505 0 $aContents note continued: 14.7. Determining the Appropriate Fit -- 14.8. Regression Confidence Intervals -- 14.9. Regression Parameters -- 14.10. Linear Correlation Analysis -- 14.11. Signal Correlations in Time* -- 14.11.1. Autocorrelation* -- 14.11.2. Cross-Correlation* -- 14.12. Problems -- Bibliography -- 15. Units and Significant Figures -- 15.1. Chapter Overview -- 15.2. English and Metric Systems -- 15.3. Systems of Units -- 15.4. SI Standards -- 15.5. Technical English and SI Conversion Factors -- 15.5.1. Length -- 15.5.2. Area and Volume -- 15.5.3. Density -- 15.5.4. Mass and Weight -- 15.5.5. Force -- 15.5.6. Work and Energy -- 15.5.7. Power -- 15.5.8. Light Radiation -- 15.5.9. Temperature -- 15.5.10. Other Properties -- 15.6. Prefixes -- 15.7. Significant Figures -- 15.8. Problems -- Bibliography -- 16. Technical Communication -- 16.1. Chapter Overview -- 16.2. Guidelines for Writing -- 16.2.1. Writing in General -- 16.2.2. Writing Technical Memoranda -- 16.2.3. Number and Unit Formats.
505 0 $aContents note continued: 16.2.4. Graphical Presentation -- 16.3. Technical Memo -- 16.4. Technical Report -- 16.5. Oral Technical Presentation -- 16.6. Problems -- Bibliography.
650 0 $aPhysical measurements$vTextbooks.
650 0 $aEngineering mathematics$vTextbooks.
650 0 $aStatistics$vTextbooks.
650 7 $aTECHNOLOGY & ENGINEERING$xMechanical.$2bisacsh
650 7 $aTECHNOLOGY & ENGINEERING$xSensors.$2bisacsh
650 7 $aEngineering mathematics.$2fast$0(OCoLC)fst00910601
650 7 $aPhysical measurements.$2fast$0(OCoLC)fst01062700
650 7 $aStatistics.$2fast$0(OCoLC)fst01132103
650 4 $aPhysical measurements$vTextbooks.
650 4 $aEngineering mathematics$vTextbooks.
650 4 $aStatistics$vTextbooks.
655 7 $aTextbooks.$2fast$0(OCoLC)fst01423863
856 42 $3Cover image$uhttp://images.tandf.co.uk/common/jackets/websmall/978146659/9781466594968.jpg
852 00 $bsci$hQC39$i.D86 2014
852 00 $bsci$hQC39$i.D86 2014