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Transboundary water resources management : a multidisciplinary approach /

Table of Contents: “…The Case of the Mesta/Nestos River Basin, Greece / Jacques Ganoulis -- 5.6.1.Introduction -- 5.6.2.Numerical Models and Tools -- 5.6.2.1.Modsur-Neige Runoff Model -- 5.6.2.2.Dams Simulation Model -- 5.6.2.3.CLM Climate Model -- 5.6.3.Simulation Results -- 5.6.3.1.Reference Climate (RF) -- 5.6.3.2.Climate Scenario A1B -- 5.6.3.3.Climate Scenario B1 -- 5.6.4.Conclusions -- References -- Further Reading -- 5.7.Assessment of Climate Change Impacts on Water Resources in the Vjosa Basin / Eglantina Demiraj -- 5.7.1.Introduction -- 5.7.2.Surface Water Assessment -- 5.7.3.Vulnerability Assessment of Surface Water -- 5.7.3.1.Evaluation of Impact of Climate Change on the Mean Annual River Runoff -- 5.7.3.2.Evaluation of Impact of Climate Change on the Seasonal River Runoff -- 5.7.4.Conclusions -- References -- 5.8.Identification and Typology of River Water Bodies in the Hellenic Part of the Strymonas River Basin, as a Transboundary Case Study / Nikolaos Tsotsolis -- 5.8.1.Introduction -- 5.8.1.1.Study Area -- 5.8.2.Methodology -- 5.8.3.Results -- 5.8.4.Conclusions and Discussion -- References -- Further Reading -- 5.9.Calculation of Sediment Reduction at the Outlet of the Mesta/Nestos River Basin caused by the Dams / Nikolaos Kotsovinos -- 5.9.1.Introduction -- 5.9.2.Description of the Simulation Model -- 5.9.3.Application of the Simulation Model -- 5.9.4.Model Testing -- 5.9.5.Main Computations -- 5.9.6.Conclusion -- References -- 5.10.Methodologies of Estimation of Periodicities of River Flow and its Long-Range Forecast: The Case of the Transboundary Danube River / Alexey V. …”
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Hydrophilic interaction chromatography a guide for practitioners /

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Hydrophilic interaction chromatography a guide for practitioners /

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Semiconductor laser engineering, reliability and diagnostics a practical approach to high power and single mode devices / by Epperlein, Peter W.

Table of Contents: “…Introduction 2.4.2. Broad Area Lasers 2.4.3. Unstable Resonator Lasers 2.4.4. …”
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Semiconductor laser engineering, reliability and diagnostics a practical approach to high power and single mode devices / by Epperlein, Peter W.

Table of Contents: “…Introduction 2.4.2. Broad Area Lasers 2.4.3. Unstable Resonator Lasers 2.4.4. …”
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PCs for dummies / by Gookin, Dan

Table of Contents: “…-- Windows And Its Gooey, Glorious Graphical Interface: -- Starting at the desktop -- Working the taskbar -- Accessing the start menu -- Looking at the notifications area -- Summoning the action center -- Settings And Controls: -- Using the settings app -- Visiting the control panel -- Programs On Your PC: -- Software nomenclature -- Run That Program: -- Hunting down programs in Windows -- Starting an app from tablet mode -- Finding a program when you know its name -- Pinning a program -- Install And Remove Programs: -- Obtaining software from the Internet -- Installing a program from external media -- Uninstalling a program -- Fun With Files And Folders: -- Behold The File!…”
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PCs for dummies / by Gookin, Dan

Table of Contents: “…-- Windows And Its Gooey, Glorious Graphical Interface: -- Starting at the desktop -- Working the taskbar -- Accessing the start menu -- Looking at the notifications area -- Summoning the action center -- Settings And Controls: -- Using the settings app -- Visiting the control panel -- Programs On Your PC: -- Software nomenclature -- Run That Program: -- Hunting down programs in Windows -- Starting an app from tablet mode -- Finding a program when you know its name -- Pinning a program -- Install And Remove Programs: -- Obtaining software from the Internet -- Installing a program from external media -- Uninstalling a program -- Fun With Files And Folders: -- Behold The File!…”
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Classical and modern engineering methods in fluid flow and heat transfer an introduction for engineers and students / by Dorfman, A. Sh. (Abram Shlemovich)

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Classical and modern engineering methods in fluid flow and heat transfer an introduction for engineers and students / by Dorfman, A. Sh. (Abram Shlemovich)

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Microbiome

Open Access

Microbiome

Open Access

Mastering Lean Six Sigma advanced black belt concepts / by Taghizadegan, Salman, 1957-

Table of Contents: “…Analysis of concepts and strategies: advanced statistical analysis, achieving ultimate performance scientifically -- 9.1 Descriptive statistics -- 9.1.1 Descriptive statistics techniques and graphing: stem and leaf -- 9.1.2 Histogram -- 9.1.3 Measure of center tendency -- 9.1.4 Measures of variability -- 9.2 Descriptive measures -- 9.2.1 Measurement system analysis -- 9.2.2 Accuracy/bias -- 9.2.3 Stability (consistency) -- 9.2.4 Linearity -- 9.2.5 Gage repeatability and reproducibility (or Gage R&R) -- 9.2.6 Measurement system components -- 9.3 Probability distributions and concepts -- 9.3.1 Definition, experiment, outcome, and sample space -- 9.3.2 Probability of event (EI) as relative frequency -- 9.3.3 Marginal and conditional probabilities -- 9.3.4 The rules of probability (union of events) -- 9.3.5 The rules of probability (intersection of events) -- 9.4 Discrete random variables: probability distribution -- 9.4.1 Binomial probability distribution -- 9.4.2 Poisson probability distribution -- 9.4.3 The hypergeometric probability distribution -- 9.5 Continuous random variables probability distributions -- 9.5.1 Normal probability distribution -- 9.5.2 t-distribution -- 9.5.3 Normality test -- 9.5.4 Exponential distribution -- 9.5.5 Reliability engineering -- 9.6 Inferential statistics and sampling distribution -- 9.6.1 Random sampling and the distribution of the sample mean -- 9.6.2 Central limit theorem (CLT) -- 9.6.3 Confidence interval for the mean [mu] of normal population ([theta] is known) -- 9.6.4 Confidence interval for the mean [mu] of normal -- Population (([theta] is unknown) -- 9.6.5 Selecting the necessary sample size -- 9.7 Hypothesis testing, inferences procedures, and proportions testing -- 9.7.1 Hypothesis testing for the mean [mu] and variance ([theta]2) of the population -- 9.7.2 P-value application -- 9.7.3 Hypothesis testing using p-value approach (using equal mean) -- 9.7.4 Hypothesis testing on the mean [mu] of a normal population for small sample -- 9.7.5 Inference procedures for two populations: applying the concepts -- 9.7.6 Comparing two normal population means ([mu]1 - [mu]2) using two small, independent samples: apply the mechanics -- 9.7.7 Comparing the variance of two normal populations ([theta]12-[theta]22) using independent samples-f test (small sample size): apply the mechanics -- 9.7.8 Estimation and testing for population proportions -- 9.7.9 Confidence interval for a population proportion: large sample -- 9.7.10 Hypothesis testing for a population proportion -- 9.7.11 Comparing population proportion: two large independent samples -- 9.8 Advanced analysis of variance (ANOVA) -- 9.8.1 One-way analysis of variance -- 9.8.2 Randomized block design and analysis of variance -- 9.8.3 Two-way analysis of variance -- 9.9 Linear regression analysis -- 9.9.1 Scatter plots and correlation analysis -- 9.9.2 Simple linear regression model and analysis -- 9.9.3 Linear regression model -- 9.9.4 Least square criteria -- 9.9.5 Inferences on the slope [beta]1, concept: t-test -- 9.9.6 Confidence interval for B1 slope -- 9.9.7 Prediction by regression analysis: confidence interval for an individual y, given x -- 9.10 Multiple regression analysis -- 9.10.1 Multiple linear regression model building -- 9.10.2 Hypothesis testing and confidence interval -- 9.10.3 Polynomial and nonlinear regression model building -- 9.11 Tollgate review and deliverables for analysis phase -- 9.11.1 Analysis phase deliverables and checklist --…”
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Mastering Lean Six Sigma advanced black belt concepts / by Taghizadegan, Salman, 1957-

Table of Contents: “…Analysis of concepts and strategies: advanced statistical analysis, achieving ultimate performance scientifically -- 9.1 Descriptive statistics -- 9.1.1 Descriptive statistics techniques and graphing: stem and leaf -- 9.1.2 Histogram -- 9.1.3 Measure of center tendency -- 9.1.4 Measures of variability -- 9.2 Descriptive measures -- 9.2.1 Measurement system analysis -- 9.2.2 Accuracy/bias -- 9.2.3 Stability (consistency) -- 9.2.4 Linearity -- 9.2.5 Gage repeatability and reproducibility (or Gage R&R) -- 9.2.6 Measurement system components -- 9.3 Probability distributions and concepts -- 9.3.1 Definition, experiment, outcome, and sample space -- 9.3.2 Probability of event (EI) as relative frequency -- 9.3.3 Marginal and conditional probabilities -- 9.3.4 The rules of probability (union of events) -- 9.3.5 The rules of probability (intersection of events) -- 9.4 Discrete random variables: probability distribution -- 9.4.1 Binomial probability distribution -- 9.4.2 Poisson probability distribution -- 9.4.3 The hypergeometric probability distribution -- 9.5 Continuous random variables probability distributions -- 9.5.1 Normal probability distribution -- 9.5.2 t-distribution -- 9.5.3 Normality test -- 9.5.4 Exponential distribution -- 9.5.5 Reliability engineering -- 9.6 Inferential statistics and sampling distribution -- 9.6.1 Random sampling and the distribution of the sample mean -- 9.6.2 Central limit theorem (CLT) -- 9.6.3 Confidence interval for the mean [mu] of normal population ([theta] is known) -- 9.6.4 Confidence interval for the mean [mu] of normal -- Population (([theta] is unknown) -- 9.6.5 Selecting the necessary sample size -- 9.7 Hypothesis testing, inferences procedures, and proportions testing -- 9.7.1 Hypothesis testing for the mean [mu] and variance ([theta]2) of the population -- 9.7.2 P-value application -- 9.7.3 Hypothesis testing using p-value approach (using equal mean) -- 9.7.4 Hypothesis testing on the mean [mu] of a normal population for small sample -- 9.7.5 Inference procedures for two populations: applying the concepts -- 9.7.6 Comparing two normal population means ([mu]1 - [mu]2) using two small, independent samples: apply the mechanics -- 9.7.7 Comparing the variance of two normal populations ([theta]12-[theta]22) using independent samples-f test (small sample size): apply the mechanics -- 9.7.8 Estimation and testing for population proportions -- 9.7.9 Confidence interval for a population proportion: large sample -- 9.7.10 Hypothesis testing for a population proportion -- 9.7.11 Comparing population proportion: two large independent samples -- 9.8 Advanced analysis of variance (ANOVA) -- 9.8.1 One-way analysis of variance -- 9.8.2 Randomized block design and analysis of variance -- 9.8.3 Two-way analysis of variance -- 9.9 Linear regression analysis -- 9.9.1 Scatter plots and correlation analysis -- 9.9.2 Simple linear regression model and analysis -- 9.9.3 Linear regression model -- 9.9.4 Least square criteria -- 9.9.5 Inferences on the slope [beta]1, concept: t-test -- 9.9.6 Confidence interval for B1 slope -- 9.9.7 Prediction by regression analysis: confidence interval for an individual y, given x -- 9.10 Multiple regression analysis -- 9.10.1 Multiple linear regression model building -- 9.10.2 Hypothesis testing and confidence interval -- 9.10.3 Polynomial and nonlinear regression model building -- 9.11 Tollgate review and deliverables for analysis phase -- 9.11.1 Analysis phase deliverables and checklist --…”
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Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

Table of Contents: “…Gyroscopic devices and sensors -- 6.1 Introduction -- 6.1.1 Preliminary remarks -- 6.1.2 Classification of gyros -- 6.1.3 Gyroscopic instruments -- 6.1.4 Positional gyros -- 6.1.5 The vertical (or horizontal) gyro -- 6.1.6 Orbit gyro -- 6.1.7 Single degree of freedom (SDF) gyros -- 6.1.8 Gyro stabilizers -- 6.1.9 Gyroscopic instruments in aeronavigation -- 6.1.10 Inertial navigation systems (INS) -- 6.1.10.1 Types of INS -- 6.1.10.2 Strapdown INS -- 6.1.11 The scope of gyros and gyro instruments of various types -- 6.2 Single degree of freedom (SDF) gyros -- 6.2.1 The solid rotor SDF gyro -- 6.2.2 The integrating gyro -- 6.2.3 Rate of speed gauging -- 6.2.3.1 Feedback contours of the angular rate gauge -- 6.2.3.2 Design variants -- 6.3 The TDF gyro in gimbal mountings -- 6.3.1 Properties of a free gyro -- 6.3.2 Areas of application, design features, and error sources -- 6.3.3 Two-component angular speed measuring instruments -- 6.4 The gyroscopic integrator for linear acceleration (GILA) -- 6.4.1 Principles of GILA operation -- 6.4.2 Sources of GILA errors -- 6.5 Contactless suspension gyros -- 6.5.1 Introduction -- 6.5.2 The electrostatic gyroscope (ESG) -- 6.5.2.1 ESG accuracy -- 6.5.2.2 The ESG rotor -- 6.5.2.3 The rotor electrostatic suspension -- 6.5.2.4 Angular rotor position readout -- 6.5.3 Conclusion -- 6.6 The fiber optic gyro (FOG) -- 6.6.1 The interferometric fiber optic gyro (IFOG) -- 6.6.1.1 The basic IFOG scheme and the Sagnac effect -- 6.6.1.2 Open-loop operation -- 6.6.1.3 Closed-loop operation -- 6.6.1.4 Fundamental limitations -- 6.6.1.5 The multiple-axis IFOG -- 6.6.1.6 The depolarized IFOG -- 6.6.1.7 Applications of the IFOG -- 6.6.2 The resonator fiber optic gyro (RFOG) -- 6.7 The ring laser gyro (RLG) -- 6.7.1 Introduction -- 6.7.2 Principle of operation -- 6.7.3 Frequency characteristics and mode-locking counter-rotating waves -- 6.7.4 The elimination of mode-locking in counter-rotating waves -- 6.7.5 Errors -- 6.7.6 Performance and application -- 6.7.7 Conclusion -- 6.8 Dynamically tuned gyros (DTG) -- 6.8.1 Introduction -- 6.8.2 Key diagrams and dynamic tuning -- 6.8.3 Operating modes -- 6.8.4 Disturbance moments depending on external factors and instrumental errors -- 6.8.5 Magnetic, aerodynamic, and thermal disturbance moments -- 6.8.6 Design, application, technical characteristics -- 6.8.7 Conclusion -- 6.9 Solid vibrating gyros -- 6.9.1 Introduction -- 6.9.2 Dynamic behavior of the ideal solid vibrating gyro -- 6.9.3 Operating modes of the solid vibrating gyro -- 6.9.4 The nonideal solid vibrating gyro -- 6.9.5 Control of the solid vibrating gyro -- 6.9.6 Axisymmetric-shell gyros -- 6.9.7 The HRG, history and current status -- 6.9.8 HRG design characteristics -- 6.9.9 Additional HRG references -- 6.10 Micromechanical gyros -- 6.10.1 Introduction -- 6.10.2 Operating principles -- 6.10.2.1 Linear-linear (LL-type) gyros -- 6.10.2.2 Rotary-rotary (RR-type) gyro principles -- 6.10.2.3 Fork and rod gyro principles -- 6.10.2.4 Ring gyro principles -- 6.10.3 Adjustment of oscillation modes in gyros of the LL and RR types -- 6.10.4 Design, application, and performance -- 6.10.4.1 Gyros of the LL and RR-type -- 6.10.4.2 Fork and rod gyros -- 6.10.4.3 Ring gyros -- 6.10.5 Conclusion -- References --…”
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Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

Table of Contents: “…Gyroscopic devices and sensors -- 6.1 Introduction -- 6.1.1 Preliminary remarks -- 6.1.2 Classification of gyros -- 6.1.3 Gyroscopic instruments -- 6.1.4 Positional gyros -- 6.1.5 The vertical (or horizontal) gyro -- 6.1.6 Orbit gyro -- 6.1.7 Single degree of freedom (SDF) gyros -- 6.1.8 Gyro stabilizers -- 6.1.9 Gyroscopic instruments in aeronavigation -- 6.1.10 Inertial navigation systems (INS) -- 6.1.10.1 Types of INS -- 6.1.10.2 Strapdown INS -- 6.1.11 The scope of gyros and gyro instruments of various types -- 6.2 Single degree of freedom (SDF) gyros -- 6.2.1 The solid rotor SDF gyro -- 6.2.2 The integrating gyro -- 6.2.3 Rate of speed gauging -- 6.2.3.1 Feedback contours of the angular rate gauge -- 6.2.3.2 Design variants -- 6.3 The TDF gyro in gimbal mountings -- 6.3.1 Properties of a free gyro -- 6.3.2 Areas of application, design features, and error sources -- 6.3.3 Two-component angular speed measuring instruments -- 6.4 The gyroscopic integrator for linear acceleration (GILA) -- 6.4.1 Principles of GILA operation -- 6.4.2 Sources of GILA errors -- 6.5 Contactless suspension gyros -- 6.5.1 Introduction -- 6.5.2 The electrostatic gyroscope (ESG) -- 6.5.2.1 ESG accuracy -- 6.5.2.2 The ESG rotor -- 6.5.2.3 The rotor electrostatic suspension -- 6.5.2.4 Angular rotor position readout -- 6.5.3 Conclusion -- 6.6 The fiber optic gyro (FOG) -- 6.6.1 The interferometric fiber optic gyro (IFOG) -- 6.6.1.1 The basic IFOG scheme and the Sagnac effect -- 6.6.1.2 Open-loop operation -- 6.6.1.3 Closed-loop operation -- 6.6.1.4 Fundamental limitations -- 6.6.1.5 The multiple-axis IFOG -- 6.6.1.6 The depolarized IFOG -- 6.6.1.7 Applications of the IFOG -- 6.6.2 The resonator fiber optic gyro (RFOG) -- 6.7 The ring laser gyro (RLG) -- 6.7.1 Introduction -- 6.7.2 Principle of operation -- 6.7.3 Frequency characteristics and mode-locking counter-rotating waves -- 6.7.4 The elimination of mode-locking in counter-rotating waves -- 6.7.5 Errors -- 6.7.6 Performance and application -- 6.7.7 Conclusion -- 6.8 Dynamically tuned gyros (DTG) -- 6.8.1 Introduction -- 6.8.2 Key diagrams and dynamic tuning -- 6.8.3 Operating modes -- 6.8.4 Disturbance moments depending on external factors and instrumental errors -- 6.8.5 Magnetic, aerodynamic, and thermal disturbance moments -- 6.8.6 Design, application, technical characteristics -- 6.8.7 Conclusion -- 6.9 Solid vibrating gyros -- 6.9.1 Introduction -- 6.9.2 Dynamic behavior of the ideal solid vibrating gyro -- 6.9.3 Operating modes of the solid vibrating gyro -- 6.9.4 The nonideal solid vibrating gyro -- 6.9.5 Control of the solid vibrating gyro -- 6.9.6 Axisymmetric-shell gyros -- 6.9.7 The HRG, history and current status -- 6.9.8 HRG design characteristics -- 6.9.9 Additional HRG references -- 6.10 Micromechanical gyros -- 6.10.1 Introduction -- 6.10.2 Operating principles -- 6.10.2.1 Linear-linear (LL-type) gyros -- 6.10.2.2 Rotary-rotary (RR-type) gyro principles -- 6.10.2.3 Fork and rod gyro principles -- 6.10.2.4 Ring gyro principles -- 6.10.3 Adjustment of oscillation modes in gyros of the LL and RR types -- 6.10.4 Design, application, and performance -- 6.10.4.1 Gyros of the LL and RR-type -- 6.10.4.2 Fork and rod gyros -- 6.10.4.3 Ring gyros -- 6.10.5 Conclusion -- References --…”
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Exegetical texts

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Exegetical texts

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Texts concerned with religious law

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Calendrical and sapiential texts

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The rhetoric of the Babylonian Talmud its social meaning and context / by Lightstone, Jack N.

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