09:19
Numerical Quantum Mechanics: | Radial Equ. of Hydrogen Atom + Shooting + Numerov | Lec 03 (Python 3)
16:54
Numerical Quantum Mechanics |Shooting Method using Numerov Method | Lec 2 (Python Implementation)
09:56
Numerical Quantum Mechanics:Non-dimensionalizing the Time-Independent Schrödinger Eq. |Lecture 01
08:01
Understanding Dirac Delta Function: Python Script Explained
12:36
Numerical Integration: Gaussian Quadrature | Theory and Python Implementation #masteringpython
26:03
Numerical Integration: Simpson's 1/3 Rule | Theory and Python & Numpy Implementation
14:56
Numerical Integration: Trapezoidal Method | Basic Theory and Python & Numpy Implementation
00:49
Chaos to Predictability | Law of Statistical Regularity #shorts #statisticalmechanics #datascience
26:44
Basics of Python 3 | Lecture 5 | 'Introducing List and For Loop'
14:03
Basics of Python 3 | Lecture 4 | 'Theory of Strings'
09:28
Basics of Python 3 | Lecture 3 | Introducing If -- Elif -- Else
06:33
Basics of Python 3 | Lecture 2 | Google Co-laboratory for Python Execution
13:28
Basics of Python 3 | Lecture 1
17:40
The Python Implementation of Shooting method
14:52
Python Implementation of 1D Wave Equation #pythonprogramming | pde with python
09:40
The Numerical Approach to 1D Wave Equation
00:54
Simulation of Gaussian Pulse Propagation in a String
19:52
Numerical Solution of Second Order Ordinary Differential Equation(ODE) using "odeint" SCIPY
25:22
Implementation of Heat diffusion equation (1D) using python | PDE with Python
12:10
How to Solve Ordinary Differential Equations in PYTHON (Scipy package)
02:13
Beat frequency observation using Audacity Software#homelab #experiments #sound #beats
08:48
The Diffusion Equation: Finite Difference Form in FTCS method
10:37
The basics of finite difference method
00:39
Electrostatics in Kitchen Lab
18:17
Python Implementation of Laplace's Equation (2D) # Python Implementation# Jacobi Method# PDE
10:48
Two Dimensional Laplace's Equation: Numerical Approach (Jacobi Method)
04:09
The Journey from Turga falls to Jonha Falls
11:38
POISSON PROCESS
13:49
Numerical Investigation on Dirac Delta Function (Python)
32:34
Improper Integral using PYTHON
14:28
Continuous Distribution Function; Mean & Variance of Gaussian Distribution
13:14
The Journey from Binomial to Normal/ Gaussian Distribution
13:39
The journey from Binomial to Poisson
21:52
DISCRETE PROBABILITY DISTRIBUTION, BINOMIAL DISTRIBUTION
10:16
Fourier Transform: Lecture I
07:30
Convolution Theorem for Fourier Transform: Lecture II
19:44
Fourier transform: Lecture III
16:03
Fourier Transform: Lecture IV
17:54
Probability Theory: Lecture I
X
About
Undergraduate Physics Lecture Series
Computational Physics
Scientific Python
Physics with Python
Basic Physics
Mathematical Physics
Mathematical Physics Laboratory
Quantum Physics Simulation
#physics Honours
# Calcutta University Physics
#numericalphysics
#probability #fouriertransform
#mastering Python
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