Project - Modelling Of Neutron Star With Python
Project - Modelling Of Neutron Star With Python
Published 11/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.51 GB | Duration: 2h 16m
Published 11/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.51 GB | Duration: 2h 16m
Unlock the Mysteries of the Cosmos: Simulate Neutron Stars Using Python
What you'll learn
Learn about Neutron Stars
Learn Python for Mathematical Modeling
End-to-End resume worthy project
Hands-on project for mathematical modelling of neutron star
Requirements
Basic knowledge of Python Programming required
Description
Embark on a thrilling journey into the depths of astrophysics with our course, "Project - Modelling of Neutron Star with Python". This course offers a unique opportunity to delve into the fascinating world of neutron stars, some of the most enigmatic and densest objects in the universe.Designed for enthusiasts with a basic understanding of Python and a passion for astronomy, this course does not just teach; it immerses you in the practical aspects of astrophysical modeling. Here's what you can expect:Fundamentals of Neutron Stars: Start with the basics. Learn about the formation, characteristics, and significance of neutron stars in the cosmic landscape.Python for Astrophysics: Brush up your Python skills with a focus on applications in astrophysics. Get hands-on with libraries and tools essential for scientific computing.Modelling Techniques: Dive into the core of the course as you learn to model various aspects of neutron stars, including their mass, density, and gravitational pull.Data Analysis and Interpretation: Learn to analyze and interpret the data obtained from your models. Understand what these celestial giants can tell us about the universe.Real-World Applications: Discover the real-world applications of neutron star modeling, from understanding gravitational waves to exploring the limits of physical laws.Interactive Projects and Assignments: Engage in interactive projects where you'll apply what you've learned to simulate your own neutron star models.Expert Guidance and Community Learning: Benefit from the guidance of experts in the field and share insights with a community of like-minded learners.By the end of this course, you'll not only have a solid understanding of neutron stars and their modeling but also a robust set of Python skills applicable in various scientific domains. Join us to unlock the mysteries of neutron stars and enhance your astrophysics toolkit!
Overview
Section 1: Introduction to the Project
Lecture 1 Welcome to the Program
Lecture 2 Understanding the Neutron Star
Lecture 3 Problem Statement
Lecture 4 Runge – Kutta Method
Lecture 5 ODEs for modelling a Neutron Star
Lecture 6 Planck System Units
Section 2: Utilities of the simulation
Lecture 7 Initial Number Density of a Neutron Star
Lecture 8 Energy Density Function of a Neutron Star
Lecture 9 Pressure Gradient ODEs
Lecture 10 Mass Gradient ODE
Lecture 11 Runge – Kutta 4th Order
Lecture 12 Function to Plot the Mass and Pressure Profiles
Section 3: Modelling of the Neutron Star
Lecture 13 Simulation Parameters and Conversion Factors
Lecture 14 Initialising Values and Arrays
Lecture 15 Modelling a Neutron Star - I
Lecture 16 Modelling a Neutron Star - II
Lecture 17 Understanding the Results
Lecture 18 Conclusion and Further Scope
Anyone interested in Astronomy and Space Science