Scientist Tech
A formal way to learn the Nature
Friday, 21 June 2019
Tuesday, 12 February 2019
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- Earth in the Universe
- Many body theory
- Monopoles - 10 - Dirac Monopoles in Quantum Mechanics - Part - 6
- Path Integral formulation - Part - 3 - Free Particle and Schrodinger's time evolution equation
- Path Integral formulation - Part - 2 - Quantum Paths
- Path Integral formulation - Part - 1 - Euler Lagrange equations from Variational Principle
- General Solution of Klein Gordon Equation
- Dirac Equation
- Klein Gordon Equation from Correspondence Principle in Relativistic domain
- Fourier series and Fourier transform
- Volume of a Hypersphere in N - dimension
- Time dependent perturbation theory
- Time Independent Perturbation Theory - Degenerate
- Time Independent Perturbation Theory - Non-degenerate
- Yang Mills Theory - Part - 3
- Yang Mills Theory - Part - 2
- Yang Mills Theory - Part - 1
- Relativistic Field theory - Euler Lagrange equation
- Monopoles - 9 - Dirac Monopoles in Quantum Mechanics - Part - 5
- Associated Legendre Polynomial - Part - 1
- Eigen values of $L^2$ and $L_z$ operator
- Monopoles - 8 - Dirac Monopoles in Quantum Mechanics - Part - 4
- Monopoles - 7 - Dirac Monopoles in Quantum Mechanics - Part - 3
- Statistical and Thermal Physics - Summary of the contents - Part - 2
- Statistical and Thermal Physics - Summary of the contents - Part - 1
- Monopoles - 6 - Dirac Monopoles in Quantum Mechanics - Part - 2
- Monopoles - 5 - Dirac Monopoles in Quantum Mechanics - Part - 1
- Quantum Harmonic Oscillator - Series Method
- Hermite Polynomials - Derivation
- Quantum Harmonic Oscillator - Operator Method - 3
- Quantum Harmonic Oscillator - Operator Method - 2
- Quantum Harmonic Oscillator - Operator Method - 1
- Monopoles - 4 - Thomson dipole
- Monopoles - 3 - Consequence of Duality transformation
- Monopoles - 2 - Duality Transformation
- Monopoles -1 - Introduction
- Cartesian to Spherical coordinate system - Coordinate Transformation
- Hamilton's equations from variational principle
- Energy stored in the Capacitor and the effect of Dielectric
- Capacitance for different types of capacitors [Parallel plate, cylindrical and spherical capacitors]
- Angular Momentum Operator in spherical cooridnate system - derivation
- Canonical Transformations
- Central force Problem - Two body problem - Part:1
- D'Alembert's principle and deriving Euler lagrange equation
- Linear Vector Space - Introduction
- Idea of Hyperbolic trigonometric functions in complex analysis
- Moment of Inertia Tensor
- Velocity Dependent Potentials and Dissipation function
- Evoultion of Wave Function - Splitting the Box
- Quantum Mechanics - Postulates (Part - 3) - Expectation value, Schrodinger Equation
- Mechanics of a system of Particles
- Free Upgrade to Windows 10 pro failed - Solution
- Rigid Body Motion - Euler Angles
- Quantum Mechanics - Postulates (Part -2) - Born Interpretation
- Effect of magnetic field on Atomic orbits
- Quantum Mechanics - Postulates (Part -1) - Wave function, Hermitian Operators
- Curvilinear Coordinate System and General expression for Gradient, Curl, Divergence and Laplacian
- Derivation of the equation of Ellipse from its definition
- Infinite Series Solution for Differential Equations
- How to install Android apps on your smartphone using your Computer's Internet Connection
- Lorentz Transformation Equations from the fundamental Postulates of Special theory of Relativity
- Mathematics Problem:1 - Think Out of the Box
- New solution to Einstein's puzzle - "Who owns the Zebra?" or "Who owns the fish?"
- Inertial Frame of Reference
- Computer freezes with White lines on monitor screen
- How GPS works?
- Power Switch in computers
- Free of cost solution for basic problems in your computer
- Functions and its conditions
- Dipole Moment
- Multipole Expansion and its symmetry with common dipole
- History of Spin
- Equations of motion
- Who owns the Zebra? - solution [Who owns the fish?]
- Non-existence of magnetic mono poles from classical mechanics
- Need for a new formalism of Mechanics
- Thermodynamic system – first variable “Volume”
- Introduction to Thermodynamics
- New Decision – Philosophical Science Society
- Symmetry in our body
- Experiment with broken Specs
- Don’t Say “You are Wrong”
- One of the ways to Understand Mathematics
- Simple Harmonic Motion
- The Second way of thinking to the Ultimate Answer
- The first way of thinking to the Ultimate answer
- Who is Right?
- The Reason for the dot product in work done definition
- Work
- Importance of the Newton’s first law
- The Universe with or without Sense
- Colour of the Sky
- Self working Light Bulb
- Electric Potential
- Faster Than Light? or Newton's Basic Laws are Wrong!
- Signals faster than Light Speed
- Motion in a Resistive medium
- Wonder of Surface Tension
- Could you Count One Nano second ?
- Time travel to the Past
- Electric flux
- Shadows of the Mind
- Basic Outline of Relativity
- Understanding Newton's Third Law
- Contradiction of Symmetry - 2
- Power Macintosh 9500/150
- Pascaline - Pascal's Calculator
- Contradiction of Symmetry
- Stage of Death
- Small to Big
- Wikipedia in your hands
- How to Download from torrentz
- Constancy
- Change in Motion and its Units
- Concept of Velocity
- Coursera
- edx
- Creation of the term Speed
- Kinematics and Its assumption
- Mathematical terms related with functions
- My favourite pencil drawings
- Contemplation of the positive and the negative
- Electricity - Electric charges
- Umbilicus sinus
- Areas and Multiplication
- Large applications of addition in Areas
- Associative property
- First Tool of Mathematics - Algebra
- Beginning of Arithmetic
- Deduction of the greatest Axioms
- Comparison of measurements
- Motion
- The development of Mechanics
- Introduction to Geometry
- Number System
- Tiny spots
Featured post
Monopoles - 5 - Dirac Monopoles in Quantum Mechanics - Part - 1
We know, Magnetic vector potential plays the crucial part in the Hamiltonian of an Electromagnetic system where the Hamiltonian formulation...