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👋 Hi, I’m Riddhiman Bhattacharya FRSA*
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👀 I’m interested in Physics and Mathematics
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⚡ Under Physics I'm interested in Cosmology, Quantum Mechanics and String Theory.
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🌱 I’m currently learning Python 🐍, Fortran and Matlab.
*FRSA: Fellow of Royal Society of Arts, London, UK
As I delve into the depths of my being, it may seem peculiar to describe myself using Physics concepts, but I delight in intertwining the realms of Physics and Mathematics into every aspect of my life.
As I imagine myself as a quantum particle, I find myself in a state of superposition, akin to Schrödinger's Cat. It's intriguing to think that until someone enters my room and observes me, my true state remains uncertain, existing as a combination of possibilities.
In this quantum analogy, the probability of finding me engrossed in reading a Physics paper in my room is high, just as it is for me doing Physics stuffs or engaging in coding/graphing.
Mathematically, I can be described by a wave function
where the square of its absolute value determines the likelihood of finding me in a particular state.
As I reflect on this quantum perspective, I recognize that my level of enthusiasm is intimately tied to my inherent creativity and thinking. It's these qualities, represented by matrix A, that contribute to shaping my state of mind.
In this formula,
Moreover, there lies a mysterious challenge before me
waiting to be unraveled. I believe that cracking this enigma requires the profound tools of Mathematics (M) and Physics (P). By harnessing the power of these disciplines, I can navigate the unknown and bring clarity to the hidden truths.
📈 & 👨💻 I thoroughly enjoy coding and graphing as they allow me to unleash my creativity and create fascinating plots and artwork. Using languages like Python and graphing tools like Desmos, I can bring my ideas to life by combining mathematical equations with visual representation. It's an exhilariting experience that merges the logic world of coding and mathematics with the artistic flair, resulting in captivating and visually pleasing creations. With each line of code and graph, I dive deeper into a world where science and art beautifully intertwine, offering endless possibilities for exploration and expression.
There are lot more. Whenever I'm free I open Desmos Graphing and spend my time trying some form of creative things. I'll upload my works from time to time. Also I run a Youtube Channel where I upload the videos of the plots,and graphs. Make sure to visit it.
🔭 Sky observation is a passion of mine. The beauty and mystery of the stars, planets, a
nd galaxies fascinate me. I love capturing these objects through my telescope and camera, and exploring the wonders of the universe.
It's a intriguing experience that always leaves me in awe.
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| Close and Detailed Capture of the Moon |
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| Capturing Jupiter- the Largest Planet in our Solar System |
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| Moon-Venus Occulusion on March 24th |
🎙️🗣️
📝 I publish a basic and interesting physics [here](everlastingquestforphysics.wordpress.com)
aimed at engaging general students in science. My goal is to make
science more accessible and enjoyable for everyone, and I believe that by breaking down complex concepts and
making them easy to understand, I can help inspire a love of learning in my readers.
🎸 As a music enthusiast, I love diving into the world of instruments.
From the soothing melodies of Rabindrasangeet to exploring various genres, I enjoy experimenting on the guitar, synthesizer, tabla, and khol. Though my musical endeavors may not be regular, once I start with my Guitar, I get lost in a captivating journey of endless experimentation and musical exploration.
I'm not very active in social media but here are my social media links
I'm learning a lot of things. Though I'm not expert in coding, I can do a little bit. Out of my own interest, I've learnt or to say am learning the enlisted languages
- JAVA
- Javascript
- C
- CSS
- C++
- Python
- Fortran
- Html
- Kotlin
- Rust
Everlasting Quest for Physics(EQP) is an initiative to provide a platform for HS students with like minded peers and teach, discuss courses which are not under normal school curriculum.
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| Everlasting Quest for Physics |
The is the Website link where you'll find my blogs. They are mostly for general students sometimes made creative with added humor to invoke the interests for Physics and Maths among students.
Date of Foundation: 15th Feb,2022
Collaborators: Fun Learning Youth
This book, inspired by my friend Wrick Pal, is a culmination of my gratitude for his unwavering support and motivation.This book not only delves into my observational works in Physics but also explores topics beyond the school curriculum.
Physics is the philosophy to understand the functioning of the Universe at its most fundamental level using the tools of mathematics, everlasting curiosity and imagination.
The initial chapters of the book explore mathematical aspects, including Spherical Trigonometry. Moving forward, we discuss intriguing theorems such as Fourier's, Taylor's, and Euler's Theorems. Later, we delve into the fascinating realms of Relativity and Quantum Mechanics, specifically focusing on Schrödinger's Quantum World. The book concludes with a discussion on Cause-Effect Relationships, Cosmos under the Lenses of Thermodynamics, the darkness of night sky, the enigmatic nature of Time, and matter-antimatter's presence.
Throughout the text, I have strived to present explanations and insights, incorporating relevant examples, videos, and links to further explore these captivating subjects. From intriguing paradoxes to philosophical implications, this book seeks to illuminate the world of Physics, offering a unique perspective and emphasizing the interplay between mathematics and observation.
I've tried to engage readers in thought-provoking discussions on various paradoxes and their applications in quantum physics. The journey through these concepts may be challenging but ultimately rewarding, unveiling the intricate nature of the quantum world.
In this work, I've focused on the study of three notable motions in General Relativity, Uniformly Accelerated Motion (UAM), Unchanged Direction Motion (UDM), and Uniform Circular Motion (UCM) which are well-established concepts in Classical Mechanics. UAM was explored in Lorentz-Minkowski spacetime L^4 and referred to as hyperbolic motion. However, I aim to extend the analysis of these motions to arbitrary spacetimes using modern Lorentzian Geometry techniques.
In Chapter 1, I have explained the essential tools of (differential) Lorentzian Geometry, including the notion of time orientation for a Lorentzian manifold, which is fundamental in defining spacetime. The main focus of Chapter 2 is to introduce the Fermi-Walker covariant derivative of an observer and the associated Fermi-Walker parallel transport. This enables the analysis of an observer that follows a UAM, where their 4-acceleration remains constant in a general spacetime. Such an observer can be geometrically characterized as a Lorentzian circle. I also explored how trajectories of uniformly accelerated observers can be represented as the projection of integral curves of a specific vector field defined on a particular fiber bundle over the spacetime. Moreover, I discussed assumptions that ensure the absence of singularities for inextensible UAM observers within a finite proper time. Chapter 2 also delved into the study of UDM and UCM in arbitrary spacetimes. I analyzed these three motions from the perspective of the corresponding ordinary differential equations that define each motion. Throughout the work, I emphasized the significance of accurate techniques from Lorentzian Geometry, particularly the Fermi-Walker connection, which provides each observer with a moving gyroscope in their relative space at each instant of their proper time. These advanced tools allowed me to gain a deeper understanding of the motions observed in General Relativity.
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| Happy Birthday |
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| Jai Hind |
Heart.-.Google.Chrome.2023-05-13.20-33-36.mp4
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| YouTube |
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| Heart |
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| Batman Equation |
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| Egg |
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| Smile is the best medicine |
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| Ice Cream |
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| Spider Web |
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| Instagram Logo |
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| Instagram Logo |
I'll update this section from time to time.
Check this repository of mine where I've all the Codes for these Pictures.
This Diagram of the Tree is prepared by Python Coding. It's not perfect. Still, I thought to add it here.
Done using Python.
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| Hello Friends, my name is Doraemon |
Done using Python
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| Rainbow |
Simulation.of.8.Planets.of.the.Solar.System.using.Html.mp4
I recently started uploading my Graphing works in Youtube Channel. I just do it for fun, and want to improve myself through suggestions of my viewers.
Here is the Link of the channel. YOUTUBE. I mostly upload my graphing and coding projects.
I can be contacted by my two mails given below