Donate
We put a lot of effort and resources to keep the materials you enjoy in LearnClax free.
Consider making a donation by buying points.
You will find Numerical Analysis, Second edition PDF which can be downloaded for FREE on this page. Numerical Analysis, Second edition is useful when preparing for MTH222, MTH421 course exams.
Numerical Analysis, Second edition written by Walter Gautschi was published in the year 2012 and uploaded for 200 level Science and Technology students of Federal University of Technology, Owerri (FUTO) offering MTH222, MTH421 course.
Numerical Analysis, Second edition can be used to learn Machine Arithmetic, Real Numbers, Machine Numbers, Rounding, Condition Numbers, Approximation, Interpolation, Least Squares Approximation, Polynomial Interpolation, Spline Functions, Numerical Differentiation, Numerical Integration, Nonlinear Equations, Iteration, Convergence, Efficiency, Method of False Position, Secant Method, Newton’s Method, Fixed Point Iteration, Algebraic Equations, Systems of Nonlinear Equations, Initial Value Problems for ODE, One-Step Methods, Numerical Methods, Euler’s Method, Taylor Expansion, Runge–Kutta Method, Error Monitoring, Step Control, Stiff Problems, Multistep Methods, Adams–Bashforth Method, Adams–Moulton Method, Predictor–Corrector Method, Two-Point Boundary Value Problems for ODEs, Initial Value Technique, Finite Difference Methods, Variational Methods .
| Technical Details |
|---|
| Uploaded on: 06-August-2020 |
| Size: 3.47 MB |
| Number of points needed for download: 43 |
| Number of downloads: 5 |
other related books
Department: Engineering
Author: Steven Chapra, Raymond Canale
school: University of Uyo
course code: GRE411
Topics : Mathematical Modeling, Engineering Problem Solving, Programming, Software, structured programming, Modular Programming, EXCEL, MATLAB, Mathcad, Significant Figures, accuracy, precision, error, Round-Off Errors, Truncation Errors, Taylor Series, Bracketing Methods graphical method, bisection method, False-Position Method, Simple Fixed-Point Iteration, Newton-Raphson Method, secant method, Brent’s Method, multiple roots, Roots of Polynomials, Müller’s Method, Bairstow’s Method, Roots of Equations pipe friction, Gauss Elimination, Naive Gauss Elimination, complex systems, Gauss-Jordan, LU Decomposition, Matrix Inversion, Special Matrices, Gauss-Seidel, Linear Algebraic Equations, Steady-State Analysis, One-Dimensional Unconstrained Optimization, Parabolic Interpolation, Golden-Section Search, Multidimensional Unconstrained Optimization, Constrained Optimization, linear programming, Nonlinear Constrained Optimization, Least-Squares Regression, linear regression, polynomial regression, Multiple Linear Regression, Nonlinear Regression, Linear Least Squares, interpolation, Newton’s Divided-Difference Interpolating Polynomials, Lagrange Interpolating Polynomials, Inverse Interpolation, Spline Interpolation, Multidimensional Interpolation, Fourier Approximation, Curve Fitting, Sinusoidal Functions, Continuous Fourier Series, Fourier Integral, Fourier Transform, Discrete Fourier Transform, Fast Fourier Transform, power spectrum, Newton-Cotes Integration Formulas, Trapezoidal Rule, Simpson’s Rules, multiple integrals, Newton-Cotes Algorithms, Romberg Integration, Adaptive Quadrature, Gauss Quadrature, Improper Integrals, Monte Carlo Integration, Numerical Differentiation, High-Accuracy Differentiation Formulas, Richardson Extrapolation, partial derivatives, Numerical Integration, Runge-Kutta Method, Euler’s Method, Boundary-Value Problems, Eigenvalue Problems, Finite Difference, Elliptic Equations, Laplace equation, Boundary Condition, Heat-Conduction Equation, Crank-Nicolson Method, Finite-Element Method
Go to Numerical methods for engineers ,8th edition PDFDepartment: Engineering
Author: Steven Chapra
school: Edo University
course code: GEE216
Topics : Numerical Methods, mathematical modeling, MATLAB, mathematical operations, structured programming, errors, roundoff errors, truncation errors, total numerical errors, blunders, model errors, data uncertainty, roots, graphical methods, bracketing methods, bisection, roots, Simple Fixed-Point Iteration, Newton-Raphson, secant methods, Brent's method, MATLAB functions, optimization, linear systems, linear algebraic equations, matrices, Gauss elimination, Naive gauss elimination, tridiagonal systems, LU factorization, matrix inverse, system condition, error analysis, iterative methods, linear systems, nonlinear systems, Eugen values, power method, curve fitting, linear regression, random numbers, linear least-squares regression, polynomial regression, multiple linear regression, QR factorization, nonlinear regression, Fourier analysis, Continuous Fourier series, frequency domain, time domain, Fourier integral, Fourier transform, Discrete Fourier transform, power spectrum, polynomial interpolation, Newton interpolating polynomial, Lagrange interpolating polynomial, inverse interpolation, extrapolation, oscillations, splines, linear splines, quadratic splines, cubic spline, multidimensional interpolation, integration, differentiation, Numerical integration formulas, Newton-Cotes formulas, Trapezoidal rule, Simpson's rules, initial value problem, Runge-Kutta methods, adaptive Runge-Kutta methods, stiff systems, Boundary-value problems, shooting method, finite-difference methods, MATLAB function
Go to Applied Numerical Methods with MATLAB, 4th edition PDFDepartment: Science and Technology
Author: Samuel Daniel Conte, Carl de Boor
school: Edo University
course code: CMP315
Topics : numerical analysis, number system, interpolation, Fixed-Point Iteration, Polynomial Equations, Real Roots, Complex Roots, Müller’s Method, Triangular Factorization, Determinants, Eigenvalue Problem, Backward-Error Analysis, determinants, Unconstrained Optimization, approximation, data fitting, Orthogonal Polynomials, Fast Fourier Transforms, Piecewise-Polynomial Approximation, differentiation, integration, numerical differentiation, numerical integration, Romberg Integration, Simple Difference Equations, Boundary Value Problems
Go to Elementary numerical analysis, 3rd edition PDFDepartment: Engineering
Author: SRK Iyengar, RK Jain
school: Nnamdi Azikiwe University
course code: IPE803
Topics : Numerical Methods, Eigen value problems, Newton-Raphson Method, General Iteration Method, Convergence of Iteration Methods, Gauss Elimination Method, Gauss-Jordan Method, interpolation, approximation, Lagrange Interpolation, Newton’s Divided Difference Interpolation, Spline Interpolation, Cubic Splines, numerical differentiation, integration, Trapezium Rule, initial value problem, Romberg Method, Taylor Series Method, Adams-Moulton Methods, Predictor-Corrector Methods, boundary value problems
Go to Numerical Methods PDFDepartment: Science and Technology
Author: Shanker Rao
school: Federal University of Technology, Owerri
course code: MTH222
Topics : Numerical Analysis, errors, algebraic equations, transcendental equations, finite differences, interpolation, central difference interpolation formulae, inverse interpolation, numerical differentiation, numerical integration, curve fitting, Eigen values, Eigen vectors, Regression analysis
Go to Numerical Analysis ,3rd edition PDFDepartment: Science and Technology
Author: Robert Bartle, Donald Sherbert
school: Nnamdi Azikiwe University
course code: MAT251
Topics : real analysis, sets, functions, mathematical induction, finite sets, infinite sets, real numbers, absolute value, real line, intervals, sequences, series, limit theorems, monotone sequences, Cauchy criterion, limits, limit theorems, continuous functions, uniform continuity, inverse function, monotone functions, derivative, mean value theorem, L' Hospital rule, Taylor's theorem, Riemann integral, Riemann integral functions, fundamental theorem, Darboux integral, approximate integrations, pointwise convergence, uniform convergence, exponential functions, logarithmic function, trigonometric functions, infinite series, absolute convergence, infinite integrals, convergence theorems, continuous functions, metric spaces
Go to Introduction to Real Analysis, 4th Edition PDFDepartment: Science and Technology
Author: George Thomas, Ross Finney
school: Federal University of Agriculture, Abeokuta
course code: MTS101
Topics : Calculus, Analytic Geometry, real numbers, real line, coordinates, functions, shifting graphs, trignometric functions, rates of change, limits, continuity, tangent lines, derivative of a function, differentiation rules, rates of change, chain rule, derivatives, implicit differentiation, rational exponents, extreme values of functions, mean value theorem, first derivative test, optimization, linearization, differentials, Newton's method, integration, indefinite integrals, differential equations, initial value problems, mathematical modelling, Riemann sums, definite integrals, mean value theorem, fundamental theorem, numerical integration, cylindrical shells, application of integrals, work, fluid pressure, inverse functions, natural logarithms, transcendental functions, L'Hopital's rule, inverse trignometric functions, hyperbolic functions, first order differential equations, Euler's numerical method, Integration formulas, integration by parts, integral tables, infinite series, power series, Maclaurin series, Taylor series, conic sections
Go to Calculus and Analytic Geometry,9th Edition PDFDepartment: Science and Technology
Author: GeorgeThomas, Joel Hass, Christopher Heil, Maurice Weir
school: University of Ilorin
course code: MAT112
Topics : Calculus, Trigonometric Functions, functions, limits, continuity, One-Sided Limits, Differentiation Rules, Derivatives, chain rule, implict differentiation, related rates, linearization, differentials, Mean Value Theorem, integrals, Monotonic Functions, First Derivative Test, Concavity, Curve Sketching, Applied Optimization, antiderivatives, Sigma Notation, limits of Finite Sums, Definite integral, Transcendental Functions, inverse functions, natural logarithms, exponential functions, exponential change, seperable differential equation, Indeterminate Form, L’Hôpital’s Rule, Inverse Trigonometric Functions, Hyperbolic Functions, Integration by Parts, integration, trigonometric integrals, trigonometric substitution, Integral Tables, Computer Algebra Systems, probability, numerical integration, improper integrals, probability, First-Order Differential Equations, Slope Fields, Euler’s Method, First-Order Linear Equations, Infinite Sequences, infinite Series, integral test, comparison test, absolute convergence, power series, alternating series, Taylor series, Maclaurin series, Parametric Equations, Polar Coordinates, Conic Sections, vector, Partial Derivatives, Lagrange Multipliers, Multiple Integrals, vector fields, Path Independence, Conservative Fields, Potential Functions, Green’s Theorem, Surface Integrals, Stokes Theorem, Divergence Theorem
Go to Thomas Calculus ,14th edition PDFDepartment: Science and Technology
Author: Elka Block, Frank Purcell
school: University of Ilorin
course code: MAT112
Topics : Calculus, Trigonometric Functions, functions, limits, continuity, One-Sided Limits, Differentiation Rules, Derivatives, chain rule, implict differentiation, related rates, linearization, differentials, Mean Value Theorem, integrals, Monotonic Functions, First Derivative Test, Concavity, Curve Sketching, Applied Optimization, antiderivatives, Sigma Notation, limits of Finite Sums, Definite integral, Transcendental Functions, inverse functions, natural logarithms, exponential functions, exponential change, seperable differential equation, Indeterminate Form, L’Hôpital’s Rule, Inverse Trigonometric Functions, Hyperbolic Functions, Integration by Parts, integration, trigonometric integrals, trigonometric substitution, Integral Tables, Computer Algebra Systems, probability, numerical integration, improper integrals, probability, First-Order Differential Equations, Slope Fields, Euler’s Method, First-Order Linear Equations, Infinite Sequences, infinite Series, integral test, comparison test, absolute convergence, power series, alternating series, Taylor series, Maclaurin series, Parametric Equations, Polar Coordinates, Conic Sections, vector, Partial Derivatives, Lagrange Multipliers, Multiple Integrals, vector fields, Path Independence, Conservative Fields, Potential Functions, Green’s Theorem, Surface Integrals, Stokes Theorem, Divergence Theorem
Go to Thomas Calculus Early Transcendentals, 13th Edition Instructors Solutions Manual PDFDepartment: Science and Technology
Author: Elizabeth Peck, Geoffrey Vining, Douglas Montgomery
school: University of Ibadan
course code: STA351
Topics : Linear Regression Analysis, Regression, Model Building, Data Collection, Simple Linear Regression Model, Simple Linear Regression, Least-Squares Estimation, Hypothesis Testing, Interval Estimation, Multiple Regression Models, Multiple linear regression, Hypothesis Testing, Confidence Intervals, Standardized Regression Coefficients, Multicollinearity, Residual Analysis, model adequacy checking, Variance-Stabilizing Transformations, Generalized Least Squares, Weighted Least Squares, Regression Models, subsampling, Leverage, Measures of Influence, influence, Polynomial regression Models, Piecewise Polynomial Fitting, Nonparametric Regression, Kernel Regression, Locally Weighted Regression, Orthogonal Polynomials, Indicator Variables, Multicollinearity, Multicollinearity Diagnostics, Model-Building, regression models, Linear Regression Models, Nonlinear Regression Models, Nonlinear Least Squares, Logistic Regression Models, Poisson regression, Time Series Data, Detecting Autocorrelation, Durbin-Watson Test, Time Series Regression, Robust Regression, Inverse Estimation
Go to Introduction to Linear Regression Analysis ,5th edition PDFDepartment: Science and Technology
Author: Ann Ryan, Douglas Montgomery, Elizabeth Peck, Geoffrey Vining
school: University of Ibadan
course code: STA351
Topics : Linear Regression Analysis, Regression, Model Building, Data Collection, Simple Linear Regression Model, Simple Linear Regression, Least-Squares Estimation, Hypothesis Testing, Interval Estimation, Multiple Regression Models, Multiple linear regression, Hypothesis Testing, Confidence Intervals, Standardized Regression Coefficients, Multicollinearity, Residual Analysis, model adequacy checking, Variance-Stabilizing Transformations, Generalized Least Squares, Weighted Least Squares, Regression Models, subsampling, Leverage, Measures of Influence, influence, Polynomial regression Models, Piecewise Polynomial Fitting, Nonparametric Regression, Kernel Regression, Locally Weighted Regression, Orthogonal Polynomials, Indicator Variables, Multicollinearity, Multicollinearity Diagnostics, Model-Building, regression models, Linear Regression Models, Nonlinear Regression Models, Nonlinear Least Squares, Logistic Regression Models, Poisson regression, Time Series Data, Detecting Autocorrelation, Durbin-Watson Test, Time Series Regression, Robust Regression, Inverse Estimation
Go to Introduction to Linear Regression Analysis Solutions Manual for 5th edition PDFDepartment: Engineering
Author: Ken Stroud, Dexter Booth
school: Federal University of Technology, Owerri
course code: ENG307, ENG308
Topics : Advanced engineering mathematics, numerical solution, Newton-Raphson iterative method, numerical methods, linear interpolation, graphical interpolation, Lagrange interpolation, Laplace transform, convolution theorem, periodic functions, Z transform, difference equations, Invariant linear systems, Differential equations, Fourier series, harmonics, Dirichlet conditions, Gibbs’ phenomenon, Complex Fourier series, complex spectra, Fourier’s integral theorem, Leibnitz-Maclaurin method, power series, Cauchy-Euler equi-dimensional equations, Leibnitz theorem, Bessel’s equation, Gamma functions, Bessel functions, Legendre’s equation, Legendre polynomials, Rodrigue’s formula, Sturm-Liouville systems, Orthogonality, Taylor’s series, First-order differential equations, Euler's method, Runge-Kutta method, Matrix algebra, Matrix transformation, Eigenvalues, direction fields, phase plane analysis, nonlinear systems, dynamical systems, Bifurcation, partial differentiation, Elliptic equations, Hyperbolic equations, Parabolic equations, multiple integration, Green’s theorem, integral functions, error function, elliptic functions, vector analysis, Curvilinear coordinates, complex analysis, complex mapping, Maclaurin series, optimization, linear programming, Linear inequalities
Go to Advanced engineering mathematics PDFDepartment: Science and Technology
Author: Joel Hass, Christopher Heil, Przemyslaw Bogacki, Maurice Weir, George Thomas
school: Federal University of Agriculture, Abeokuta
course code: MTS241
Topics : functions, combining functions, trigonometric functions, exponential functions, inverse functions, logarithms, limit, continuity, derivatives, differentiation rules, chain rule, implicit differentiation, inverse trigonometric functions, related rates, linearization, differentials, mean value theorem, monotonic functions, applied optimization, integrals, transcendental functions, hyperbolic functions, integration, trigonometric integrals, trigonometric substitution, numerical integration, improper integrals, infinite sequences, infinite series, integral test, comparison test, absolute convergence, power series, Taylor series, Maclurin series, parametric equations, polar coordinates, vectors, dot product, cross product, vector-valued functions, partial derivatives, saddle points, multiple integrals, vector fields, Euler equations
Go to University calculus early transcendentals, 4th edition PDFDepartment: Science and Technology
Author: Frank Ayres, Elliott Mendelson
school: Nnamdi Azikiwe University
course code: MAT231
Topics : Calculus, linear coordinate systems, absolute value, inequalities, rectangular coordinate systems, lines, circles, parabolas, ellipses, hyperbolas, conic sections, functions, limits, continuity, continuous function, derivative, delta notation, chain rule, inverse functions, implicit differentiation, tangent lines, normal lines, critical numbers, relative maximum relative minimum, cure sketching, concavity, symmetry, points of inflection, vertical asymptotes, trigonometry, trigonometric functions, inverse trigonometric functions, rectilinear motion, circular motion, differentials, Newton's method, antiderivatives, definite integral, sigma notation, natural logarithm, exponential functions, logarithmic functions, L'hopital's rule, exponential growth, decay, half-life, integration by parts, trigonometric integrands, trigonometric substitutions, improper integrals, parametric equations, curvature, plane vectors, curvilinear motion, polar coordinates, infinite sequences, infinite series, geometric series, power series, uniform convergence, Taylor's series, Maclaurin series, partial derivatives, total differential, differentiability, chain rules, space vectors, directional derivatives, vector differentiation, vector integration, double integrals, iterated integrals, centroids, triple integrals, Separable Differential Equations, Homogeneous Functions, Integrating Factors, Second-Order Equations
Go to Schaum's Outline of Calculus, 6th edition PDFDepartment: Science and Technology
Author: CE Chidume, Chukwudi Chidume
school: Federal University of Technology, Owerri
course code: MTH301
Topics : real number system, order relation, natural numbers, countable sets, uncountable sets, bounded sets, limits, Monotone Sequences, Sandwich Theorem, limit theorems, Bolzano-Weierstrass Theorem, Limit Superior, Limit Inferior, Cauchy Sequences, continuity, topological notions, One-sided Continuity, Continuity Theorems, Uniform Continuity, Uniform Continuity Theorems, closed sets, compact sets, continuous maps, differentiability, derivative, Rolle’s Theorem, Mean Value Theorem, L’Hospital’s Rule, Nonnegative Real Numbers series, Integral Test, Comparison Test, Limit Comparison Test, Cauchy’s Root Test, D’Alembert’s Ratio Test, Alternating Series, Absolute Convergence, Conditional Convergence, Riemann Integral, Integration, Uniform convergence, Power Series, Equicontinuity, Arzela-Ascoli Theorem
Go to Foundations of Mathematical Analysis PDFDepartment: Science and Technology
Author: Richard Bronson, Gabriel Costa
school: University of Ibadan
course code: MAT241
Topics : Differential Equations, Modeling, Qualitative Methods, First-Order Differential Equations, Separable First-Order Differential Equations, Exact First-Order Differential Equations, Linear First-Order Differential Equations, Linear Differential Equations, Second-Order Linear Homogeneous Differential, nth-Order Linear Homogeneous Differential Equations, Method of Undetermined Coefficients, Variation of Parameters, Initial-Value Problems, Laplace Transform, matricies, Inverse Laplace Transforms, Convolutions, Unit Step Function, power series, Series Solutions, Classical Differential Equations, Gamma Functions, Bessel Functions, Partial Differentiall Equations, Second-Order Boundary-Value Problems, Eigenfunction Expansions, Difference Equations
Go to Schaum’s Outline of Differential Equations ,4th edition PDFDepartment: Science and Technology
Author: William Trench
school: Federal University of Technology, Owerri
course code: MTH203
Topics : Differential Equations, first order equations, Linear First Order Equations, separable equations, exact equations, integrating factors, numerical methods, Euler's method, Improved Euler Method, Runge-Kutta Method, Autonomous Second Order Equations, Linear Second Order Equations, Homogeneous Linear Equations, Constant Coefficient Homogeneous Equations, Non homogeneous Linear Equations, power series, Laplace transforms, inverse Laplace transform, initial value problem, unit step function, convolution, Linear Higher Order Equations, Linear Systems of Differential Equations, Constant Coefficient Homogeneous Systems
Go to Elementary Differential Equations PDFDepartment: Science and Technology
Author: William Trench
school: Federal University of Technology, Owerri
course code: MTH203
Topics : Differential Equations, first order equations, Linear First Order Equations, separable equations, exact equations, integrating factors, numerical methods, Euler's method, Improved Euler Method, Runge-Kutta Method, Autonomous Second Order Equations, Linear Second Order Equations, Homogeneous Linear Equations, Constant Coefficient Homogeneous Equations, Non homogeneous Linear Equations, power series, Laplace transforms, inverse Laplace transform, initial value problem, unit step function, convolution, Linear Higher Order Equations, Linear Systems of Differential Equations, Constant Coefficient Homogeneous Systems
Go to Student solutions manual for Elementary differential equations PDFDepartment: Science and Technology
Author: Gabriel Nagy
school: University of Ilorin
course code: MAT211
Topics : Ordinary Differential Equations, linear constant coefficient equations, initial value problem, integrating factor method, linear variable coefficient equation, Bernoulli equation, separable equation, Euler Homogenous equations, exact differential equation, exponential decay, Newton's cooling law, carbon-14 dating, nonlinear equations, second order linear equations, variable coefficients, Homogenous Constant Coefficients Equations, Euler Equidimensional Equation, Nonhomogeneous Equations, power series, Laplace transform, discontinous sources, Two-Dimensional Homogeneous Systems, Two-Dimensional Phase Portraits, Autonomous Systems, Stability, Boundary Value Problems, linear algebra, matrix algebra, Eigenvalues, Eigenvectors, Diagonalizable Matrices, Matrix Exponential, exponential function
Go to Ordinary Differential Equations PDFDepartment: Science and Technology
Author: Thomas Sudkamp
school: Edo University
course code: CSC314
Topics : Languages, regular expression, text searching, grammars, automata, languages, Chomsky normal form, finite automata, deterministic finite automata, Myhill-Nerode theorem, homky, undecidability, Rice's theorem, Mu-recursive functions, numeric computation, incomputable functions, linear-bounded automata, computational complexity, linear speedup, Hamiltonian circuit problem, polynomial-time reduction, satisfiability problem, complexity class relations, optimization problems, approximation algorithms, approximation schemes, space complexity, deterministic parsing
Go to Languages and Machines, 3rd edition PDFDepartment: Science and Technology
Author: BD Bunday, Mulholland
school: Federal University of Agriculture, Abeokuta
course code: MTS105
Topics : Finite sequences, finite series, complex numbers, binomial theorem, quadratic function, quadratic equation, Trigonometric equations, Trigonometric functions, solution of triangles, differential calculus, differentiation, differentiation techniques, logarithmic functions, exponential functions, intefration, integral calculus, differential equations, co-ordinate geometry, straight line, parabola, ellipse, hyperbola, numerical methods, vectors
Go to Pure Mathematics for Advanced Level ,2nd edition PDFrelated Past Questions
Department: Science and Technology
Year Of exam: 2019
school: Federal University of Agriculture, Abeokuta
course code: MTS101, MTS102
Topics : Set theory, real numbers, complex numbers, rational functions, partial fraction, binomial expansion, sequence, series, matrices, Trigonometry, Differentiation, integration
Go to Tutorial workbook for MTS101 & MTS102 past questionDepartment: Science and Technology
Year Of exam: 2019
school: Federal University of Technology, Owerri
course code: MTH421
Topics : Euler, picard, numerical analysis, newton-cotes, newton, taylor, runge kutta, differental equation, jacobi
Go to NUMERICAL ANALYSIS past questionDepartment: Science and Technology
Year Of exam: 2018
school: University of Ilorin
course code: MAT332
Topics : Jacobi, Gauss seidel, Chebyshev form, Romberg integration, Natural spline, Orthogonal polynomial, Gram-shmidt, Trapezoidal rule, Simpson rule, metric space
Go to Numerical analysis 1 test&exam-2017&2018 past questionDepartment: Science and Technology
Year Of exam: 2019
school: Federal University of Technology, Owerri
course code: EVT419
Topics : environmental systems, ecological zones, climate change, natural disaster, environmental monitoring, survey, bioassay
Go to ENVIROMENTAL MONITORING past questionDepartment: Science and Technology
Year Of exam: 2018
school: Federal University of Technology, Owerri
course code: CSC201
Topics : Generations of computer, assignment statements, analytic engine, syntax error, semantic error, program error, type mismatch
Go to Computer and applications past questionDepartment: Science and Technology
Year Of exam: 2020
school: University of Benin
course code: MTH110
Topics : Sets, binary operation, partial fractions, mathematical induction, real numbers, remainder theorem, factor theorem, polynomial, mapping, complex number, Argand diagram, trigonometric function, sequence, series, recurrency, D'Alembert ratio test, permutation, combination
Go to Sets, binary operation, partial fractions, mathematical induction past questionDepartment: Science and Technology
Year Of exam: 2019
school: Federal University of Technology, Owerri
course code: PHY401
Topics : Lagrange, oscillator, newton, Hamiltonian, Euler, Variational principle, rigid body, mechanics
Go to ANALYTICAL MECHANICS 2-2015,2016&2019 past questionDepartment: Science and Technology
Year Of exam: 2018
school: Federal University of Technology, Owerri
course code: MTH101
Topics : logarithm, partial fraction, inequality, linear expansion, complex number, arithmetic progression, geometric progression
Go to ELEMENTARY MATHEMATICS 1-TEST&EXAM-2013-2018 past questionDepartment: Science and Technology
Year Of exam: 2013
school: University of Ilorin
course code: MAT112
Topics : Functions, continuity, Limits of Functions, Differentiation, Maxima, minima, Point of inflexion, Taylors series, Maclaurin series
Go to MAT112 Practice questions for UNILORITES past questionDepartment: Science and Technology
Year Of exam: 2019
school: Federal University of Technology, Owerri
course code: MTH203
Topics : differential equation, linear, nonlinear, set, wronskian, Bernoulli, Laplace transform
Go to ORDINARY DIFFERENTIAL EQUATIONS 1-2018&2019 past questionDepartment: Science and Technology
Year Of exam: 2014
school: Federal University of Technology, Owerri
course code: MTH101
Topics : real numbers, quadratic equation, geometric progression
Go to Elementary Maths test&exam 2013,2014 past questionDepartment: Science and Technology
Year Of exam: 2018
school: Federal University of Technology, Owerri
course code: MTH203
Topics : Ordinary Differential Equations, Differential equations, Laplace transform
Go to Ordinary Differential Equations 1-2014-2018 past questionDepartment: Science and Technology
Year Of exam: 2016
school: University of Ilorin
course code: MAT307
Topics : RIemann integral, Weierstrass convergence criterion, partition
Go to Real analysis 2-2011,2015,2016 past questionDepartment: Science and Technology
Year Of exam: 2013
school: Federal University of Technology, Owerri
course code: CSC201
Topics : Logical error, syntax error, BASIC, FORTRAN, BCD, VOIP, SMTP
Go to Computer and applications TEST &EXAM past questionDepartment: Engineering
Year Of exam: 2020
school: Federal University of Technology, Owerri
course code: EEE501
Topics : Control system design technology, PID control equation, feedback control, PID algorithm, digital control design, sampling, discrete time response, zero-order hold model, Z transform, describing function, nonlinear difference equation, linear oscillation, absolute stability, linear systems, non-linear systems, nonlinear system analysis
Go to Control system design technology past questionDonate
We put a lot of effort and resources to keep the materials you enjoy in LearnClax free.
Consider making a donation by buying points.