Tabla de Contenidos: “…Newman, Reena Pau, Ashley Smith and Tyler Ward, Erica the Rhino: A Case Study in Using Raspberry Pi Single Board Computers for Interactive Art, Reprinted from: Electronics 2016, 5(3), 35; doi: 10.3390/electronics5030035 -- Michael F. Cloutier, Chad Paradis and Vincent M. Weaver, A Raspberry Pi Cluster Instrumented for Fine-Grained Power Measurement, Reprinted from: Electronics 2016, 5(4), 61; doi: 10.3390/electronics5040061 -- Argyrios Samourkasidis and Ioannis N. …”

Tabla de Contenidos: “…Preston -- Rosevear, John Solomon (Sol): Speaker 1943-1949 / Frank Bongiorno -- Salmon, Charles Carty (Carty): Speaker 1909-1910 / John Hawkins -- Scholes, Gordon Glen: Speaker 1975 / Jenny Hocking -- Scott, Bruce Craig: Deputy Speaker 2012-2016 / Brian F. Stevenson -- Sinclair, Ian McCahon: Speaker 1998 / Tracey Arklay -- Slipper, Peter Neil: Speaker 2011-2112 / Brian F. …”

Tabla de Contenidos: “…Table of contents: Contents 4 Introduction 8 Section 1: Basic Concepts 26 1.1.8 Lattice Geometries 53 1.2.6 Electron stopping powers for coupled photon and electron problems . 57 1.2.7 Data and models for Ions and Charged Particles 61 1.2.8 Additional data diagnostics and recommendations 62 1.3 Sources 63 1.3.1 SDEF Fixed Sources .63 1.3.2 SDEF Source Distributions 66 1.3.3 SDEF Dependent Distributions: DS 69 1.3.4 Criticality Sources 71 1.3.5 Surface Source Read and Write (SSR, SSW) 77 1.3.6 Checking sources 87 1.4 Output and Tallies 87 1.4.1 Output Files 87 1.4.2 MCNP Estimators and Tally Types 93 DRAFT 5 1.4.3 Basic Tally Format 95 1.4.4 Special Tally Treatments 111 1.4.5 Pulse-Height Tallies. 128 1.4.6 Point Detectors and Next-Event Estimators 134 1.5 Plotting 143 1.5.1 Geometry Plotting and Command Files143 1.5.2 Cross Section plotting 145 1.5.3 Tally Plotting 150 1.5.4 Mesh, Radiography, and Ring Tallies 167 1.6 Statistics and Convergence 186 Section 2: Examples for nuclear safeguards applications 198 2.1 Example 1: Fuel Assembly in Water Tank 198 2.1.1 Description 198 2.1.2 Geometry description 203 2.1.3 Other data: sources, materials, tallies, and more 204 2.1.4 MCNP Output 206 2.2 Example 2: Coincidence Counter with F4 and F8 Tallies for Coincidence and Multiplicity Counting Rates 207 2.2.1 Description 207 2.2.2 Materials 212 2.2.3 Source 212 2.2.4 Tallies 213 2.2.5 Warning Messages 214 2.2.6 Results 216 2.2.6A: From the Point Model. 216 2.2.6B: Rates Calculated without Point Model assumptions 221 2.3 Gamma pulse height (to be completed) 227 2.4 Active Neutron Example: Cf Shuffler. 231 2.4.1 Description and input file. 231 2.4.2 Results 234 Section 3: Examples of Advanced Concepts 240 Section 3.1 Variance Reduction 240 3.1.1 Introduction 240 DRAFT 6 3.1.2 Multigroup Weight Windows and Time Splitting: Lead Slowing Down Spectrometer 242 3.1.2.1 Input File Notes 253 3.1.2.2 Variance Reduction Step 1: simplify problem and add weight window generator 256 3.1.2.3 Iteration 2 .261 3.1.2.4 Additional iterations 263 3.1.2.5 Cylindrical Mesh Weight Window Summary 267 3.1.3 Cell-based weight windows for the Lead Slowing Down Spectrometer 271 3.1.4 Time splitting 277 3.1.5 Variance Reduction for the Cf Shuffler. 280 3.1.5.1 Cf Shuffler modified input 280 3.1.5.2 Particle production bias, time splitting, and windows 285 3.1.5.3 Analysis of Cf Shuffler Variance Reduction 288 3.2 DXTRAN and Other Capabilities for Distributed Source Problems 288 3.2.1 UF6 Cask Model 290 3.2.2 DXTRAN 300 3.2.3 Source Position Biasing 307 3.2.4 Best Single Detector Solution 310 3.3 Neutron Detector Operation in More Detail. 318 3.3.1 Introduction 318 (i) Make reaction products (model, data) and recoil nuclei 318 (ii) Track created particles in real gas composition 321 (iii) Tally energy deposition of particles in active volume (F8 CAP EDEP for coincidence/multiplicity counting) 322 Examples 322 3He detector Pulse Height. 322 3He Detector Coincidence Calculation 324 10B-lined detectors 325 References 332 Section 4: Additional Topics 332 4.1 Troubleshooting or "How can I be confident in the results?" …”

Tabla de Contenidos: “…A New Pt(II) Complex with Anionic s-Triazine Based NNO-Donor Ligand: Synthesis, X-ray Structure, Hirshfeld Analysis and DFT Studies Reprinted from: Molecules 2022, 27, 1628, doi:10.3390/molecules27051628 31 -- Ryoji Mitsuhashi, Yuya Imai, Takayoshi Suzuki and Yoshihito Hayashi Selective Formation of Intramolecular Hydrogen-Bonding Palladium(II) Complexes with Nucleosides Using Unsymmetrical Tridentate Ligands Reprinted from: Molecules 2022, 27, 2098, doi:10.3390/molecules27072098 43 -- Sabrina Grenda, Maxime Beau and Dominique Luneau Synthesis, Crystal Structure and Magnetic Properties of a Trinuclear Copper(II) Complex Based on P-Cresol-Substituted Bis(α-Nitronyl Nitroxide) Biradical Reprinted from: Molecules 2022, 27, 3218, doi:10.3390/molecules27103218 57 -- Richard F. D'Vries, Germ ́an E. Gomez and Javier Ellena Highlighting Recent Crystalline Engineering Aspects of Luminescent Coordination Polymers Based on F-Elements and Ditopic Aliphatic Ligands Reprinted from: Molecules 2022, 27, 3830, doi:10.3390/molecules27123830 73 -- Sifani Zavahir, Hamdi Ben Yahia, Julian Schneider, DongSuk Han, Igor Krupa and Tausif Altamash et al. …”

Tabla de Contenidos: “…Tuttle -- A transistor operational d.c. amplifier / W. Hochwald, F.H. Gerhard -- The computing problem in the analysis of non-stochastic time series using an auto-regression model / Z. …”

Tabla de Contenidos: “…Equivalent Isotropically Radiated PowerUnits of Power and Comparison; Watt; Milliwatt (mW); Decibel (dB); dBi; dBd; dBm; Inverse Square Law; RF Mathematics; Rule of 10s and 3s; Noise Floor; Signal-to-Noise Ratio (SNR); Received Signal Strength Indicator; Link Budget; Fade Margin/System Operating Margin; Summary; Exam Essentials; Review Questions; Chapter 4 Radio Frequency Signal and Antenna Concepts; Azimuth and Elevation Charts (Antenna Radiation Envelopes); Interpreting Polar Charts; Beamwidth; Antenna Types; Omnidirectional Antennas; Semidirectional Antennas; Highly Directional Antennas…”

“…You’ll learn how to use correlation and regression, analyze variance and covariance, and test statistical hypotheses using the normal, binomial, t, and F distributions. To help you make accurate inferences based on samples from a population, this edition adds two more chapters on inferential statistics, covering crucial topics ranging from experimental design to the statistical power of F tests. …”

“…In this valuable book-which also features contributions by acclaimed artist William F. Powell-Walter T. Foster invites you into his artistic world and shows you how to draw a variety of subjects…”