Numerical Method Analysis for Engineering Students


Free Download Numerical Method Analysis for Engineering Students
Published 1/2024
Created by Muhammad Arsalan Khan
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + srt | Duration: 34 Lectures ( 7h 7m ) | Size: 2.84 GB


All you need to know about numerical methods and their implementation is covered.
What you’ll learn:
Understand the significance of numerical methods in solving mathematical problems.
Learn the principles of the bisection method for solving non-linear equations.
Understand how to apply the bisection method to find roots of equations.
Explore the Newton Raphson method for finding roots of non-linear equations.
Understand techniques for solving systems of non-linear equations.
Comprehend the concept of linear systems and their representation.
Learn LU decomposition as a method for solving linear equations.
Gain proficiency in fitting curves to given data sets.
Learn the principles of polynomial regression and its applications.
Explore various interpolation methods, including Lagrangian and Newtonian interpolation.
Understand numerical techniques for approximating derivatives.
Learn different numerical integration techniques, including Trapezoidal Rule, Simpson’s Rule, Simpson’s 3/8th Rule, and Gauss Quadrature Rule.
Understand and implement various numerical methods for solving ODEs.
Learn the finite difference method for solving boundary value problems.
Apply numerical techniques to solve BVPs in practical scenarios.
Requirements:
Mathematical Background: Familiarity with basic mathematical concepts such as algebra and calculus is recommended. Understanding equations, derivatives, and integrals will enhance the learning experience.
Programming Knowledge (Optional): While not mandatory, a basic understanding of programming concepts can be advantageous. The course may involve implementing numerical algorithms in languages such as Python or MATLAB. However, detailed explanations and examples will be provided, making it beginner-friendly.
Curiosity and Enthusiasm: A willingness to explore and experiment with numerical methods is crucial. The course is designed to be engaging, and a curious mindset will contribute to a more enriching learning experience.
Desire to Apply Knowledge: The course focuses on practical applications of numerical methods. Learners should be motivated to apply the concepts learned to solve real-world problems in various domains.
Description:
Immerse yourself in the world of numerical methods with our comprehensive course designed for students, professionals, and enthusiasts seeking to master the art of problem-solving. Whether you’re in engineering, science, or mathematics, this course is your gateway to unlocking the potential of numerical techniques for tackling complex problems.Course Highlights:Introduction to Numerical Methods:Gain a solid understanding of the fundamentals of numerical methods and their applications.Explore the historical context and real-world relevance of numerical techniques.Solving Non-Linear Equations:Master the Bisection Method and Newton Raphson Method for efficiently solving non-linear equations.Learn techniques for solving systems of non-linear equations, a key skill in scientific modeling.Solving Linear Equations:Explore linear systems of equations and their significance in various fields.Learn to solve linear equations using LU Decomposition, a fundamental technique for efficient computation.Regression and Interpolation:Delve into curve fitting and regression analysis techniques.Learn Lagrangian and Newtonian interpolation methods for precise data approximation.Numerical Differentiation and Integration:Understand and apply numerical techniques for differentiation and integration.Master the Trapezoidal Rule, Simpson’s Rule, and Gauss Quadrature Rule for accurate numerical integration.Numerical Solutions of Differential Equations:Explore a wide array of numerical methods for solving ordinary differential equations (ODEs).Apply these methods to model and simulate dynamic systems.Boundary Value Problems:Learn the Finite Difference Method for solving boundary value problems (BVPs).Apply numerical techniques to address real-world scenarios involving BVPs.Why Take This Course?Hands-On Application:Each lecture is crafted to blend theoretical understanding with practical application, ensuring you can confidently apply numerical methods to real-world problems.Comprehensive Learning Path:From foundational concepts to advanced techniques, this course provides a structured learning path for mastering numerical methods.Problem-Solving Proficiency:Acquire the skills to approach and solve complex mathematical problems, enhancing your analytical abilities and career prospects.Embark on this journey, and by the end of the course, you’ll be equipped with the expertise to confidently apply numerical methods to a wide range of engineering, scientific, and mathematical challenges. Enroll now and elevate your problem-solving skills to new heights.
Who this course is for:
Students in STEM Fields: Undergraduate and graduate students pursuing degrees in science, technology, engineering, and mathematics (STEM) will find this course valuable. It complements academic coursework and provides practical insights into solving complex mathematical problems encountered in these fields.
Engineers and Scientists: Professionals working in engineering, physics, chemistry, and related scientific disciplines can benefit from this course. Numerical methods are essential tools for modeling and simulating real-world phenomena, making this course relevant to practitioners seeking to enhance their problem-solving skills.
Computer Science Enthusiasts: Individuals with an interest in computer science and programming can leverage this course to understand the implementation of numerical algorithms. The course introduces programming concepts in the context of numerical methods, making it accessible to those with basic coding knowledge.
Data Analysts and Statisticians: Professionals involved in data analysis and statistics will find value in the sections covering regression, interpolation, and curve fitting. The course provides practical methods for approximating and analyzing data sets.
Educators and Instructors: Teachers, professors, and instructors in mathematics and related fields can use this course as a resource to enhance their curriculum. The comprehensive coverage of numerical methods, along with practical examples, makes it suitable for classroom supplementation.
Curious Learners: Individuals with a general interest in mathematics and problem-solving who want to explore the world of numerical methods will find this course engaging. The content is presented in a way that is accessible to learners at various levels of mathematical proficiency.
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