Detecting Motion Books
Author: MTS FUNAAB
School: Federal University of Agriculture, Abeokuta
Department: Science and Technology
Course Code: MTS104
Topics: Force, Parallelogram Law, Lami’ s theorem, Polygon of forces, Moment of force, couple, friction, work, energy, power, kinetic energy, potential energy, conservation of energy, simple harmonic motion
Engineering a compiler, 2nd edition
Author: Keith Cooper, Linda Torczon
School: Edo University
Department: Science and Technology
Course Code: CSC312
Topics: scanners, regular expression, Top-Down Parsing, parsing, Expressing Syntax, Bottom-Up Parsing, Context-Sensitive Analysis, Intermediate Representations, Procedure Abstraction, code shape, Arithmetic Operators, Boolean operators, relational operators, character strings, procedure calls, Data-Flow Analysis, Iterative Data-Flow Analysis, Interprocedural Analysis, scalar optimizations, code motion, Instruction Scheduling, register allocation, Local Register Allocation, Global Register Allocation
Probability and Statistics, The Science of Uncertainty, 2nd Edition
Author: Michael Evans, Jeffrey Rosenthal
School: Federal University of Technology, Owerri
Department: Science and Technology
Course Code: STA301
Topics: probability models, Conditional Probability, Venn diagram, Random Variables, Discrete Distributions, Continuous Distributions, Cumulative Distribution Functions, Joint Distributions, Simulating Probability Distributions, expectation, Inequalities, Jensen’s Inequality, Sampling Distributions, Limits, Central Limit Theorem, Monte Carlo Approximations, Normal Distribution Theory, Chi-Squared Distribution, Statistical Inference, statistical model, Data Collection, Finite Populations, Simple Random Sampling, Histograms, Survey Sampling, Descriptive Statistics, Plotting Data, Likelihood Inference, Maximum Likelihood Estimation, Distribution-Free Methods, Bayesian Inference, Bayesian Computations, Optimal Inferences, Optimal Unbiased Estimation, Optimal Hypothesis Testing, quantitative response, Simple Linear Regression Model, Bayesian Simple Linear Model, Multiple Linear Regression Model, Markov Chains, Gambler’s Ruin Problem, Markov Chain Monte Carlo, Martingales, Brownian Motion, Poisson Processes
Basic Chemical Thermodynamics, 5th Edition
Author: Brian Smith
School: Lagos State University
Department: Science and Technology
Course Code: CHE256
Topics: Chemical Thermodynamics, mechanical systems equilibrium, perfect gas, energy, work, heat, temperature, temperature measurement, molecular motion, energy conservation, enthalpy, heat capacity, entropy, equilibrium, free energy, Gibbs free energy, phase equilibria, Clapeyron equation, Clausius-Clapeyron equation, chemical potential, Le Chatelier's principle, Hess's law, free-energy changes determination, Ellingham diagram, free-energy functions, ideal solution, ideal dilute solution, freezing-point depression, osmotic pressure, solid solubility, electrochemical cells, standard electrode potentials, irreversible expansion, Joule-Thomson experiment, imperfect gases, energy levels, Boltzmann factor, rotational partition function, vibrational partition function, chemical equilibrium
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