#Theoretical Physicist

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#Theoretical Physicist Reel by @davide.debiasio (verified account) - ✨🤔🚀 How can I become a theoretical physicist? ❓🎙💡 Since I've started working in science communication, there is no question I have received more
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@davide.debiasio
✨🤔🚀 How can I become a theoretical physicist? ❓🎙💡 Since I’ve started working in science communication, there is no question I have received more often. 👩🏽‍🏫📐🔬 Learning physics requires going through some standard, universal, and inevitable topics. One must start with mathematics and proceed almost chronologically, studying the theories and experiments that have expanded our understanding of the world from Newton onwards. 📚💻📖 Books, I don’t deny it, are very expensive, but there are countless online resources, courses, lecture notes, and workbooks that are as good as the most exclusive tomes! ☝🏻🧠🌌 Tell me: have you already started exploring some physics? How is it going? #physics #quantum #spacetime
#Theoretical Physicist Reel by @victoriaporozova (verified account) - ER=EPR: Quantum Connection to Wormholes ⠀ What if wormholes and quantum entanglement were two sides of the same coin? That's the bold idea behind ER=
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@victoriaporozova
ER=EPR: Quantum Connection to Wormholes ⠀ What if wormholes and quantum entanglement were two sides of the same coin? That’s the bold idea behind ER=EPR, a conjecture by Leonard Susskind and Juan Maldacena that bridges General Relativity and Quantum Mechanics arxiv:1306.0533v2 ⠀ 🔗 ER (Einstein-Rosen bridges): These are wormholes—spacetime tunnels connecting two distant regions. Described by Einstein and Rosen in 1935, they’re non-traversable, meaning no signals or matter can pass through. ⠀ 🔗 EPR (Einstein-Podolsky-Rosen pairs): These are quantum entangled particles. When two particles are entangled, measuring one instantly determines the state of the other, no matter how far apart they are. ⠀ The ER=EPR conjecture: Wormholes are the geometric manifestation of quantum entanglement. In other words, every entangled pair is connected by a tiny wormhole! ⠀ What Does This Mean? ER=EPR suggests that spacetime itself might emerge from quantum entanglement. It connects two pillars of physics: the geometry of General Relativity and the quantum information of entanglement. ⠀ ✨ Why It’s Important: 1. Spacetime from Entanglement: ER=EPR hints that the fabric of spacetime could be built from quantum connections. 2. Black Hole Insights: It sheds light on black hole interiors, Hawking radiation, and information retrieval. 3. Quantum Gravity: This conjecture moves us closer to unifying Quantum Mechanics and General Relativity. ⠀ ER=EPR transforms our understanding of the universe, showing that entanglement might literally hold spacetime together. What excites you most about this idea? Let me know below! ⠀ #quantum #physics #science #quantumentanglement #wormhole #blackhole #quantumgravity #generalrelativity #fyp #einstein #susskind #scienceexplained #theoreticalphysics #quantumphysics #entanglement #theoreticalphysicist #victoriaporozova #vquantpost
#Theoretical Physicist Reel by @thequantumbrief - Sabrina Gonzalez-Pasterski, a theoretical physicist at the Perimeter Institute for Theoretical Physics, explains celestial holography. She describes
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@thequantumbrief
Sabrina Gonzalez-Pasterski, a theoretical physicist at the Perimeter Institute for Theoretical Physics, explains celestial holography. She describes how physicists explore whether the physical universe, especially near flat space-time, can be represented holographically, where quantum gravity is described by a lower-dimensional, non-gravitational theory. Credit: Perimeter Institute for Theoretical Physics (YouTube)
#Theoretical Physicist Reel by @instituteforadvancedstudy - Observations indicate that significant magnetic fields are ubiquitous throughout the Universe. However, the process by which these magnetic fields wer
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@instituteforadvancedstudy
Observations indicate that significant magnetic fields are ubiquitous throughout the Universe. However, the process by which these magnetic fields were created, known as “magnetogenesis,” remains a profound mystery.   It is generally accepted that for magnetogenesis to occur, two ingredients are required. First, there must be a weak “seed” magnetic field. Second, this field must be amplified to present-day levels by a process known as a “dynamo”: a turbulent flow of astrophysical plasma, which converts the plasma’s kinetic energy into magnetic energy.   While previous work studied these two components separately, Muni Zhou, Member in the School of Natural Sciences, has worked alongside her collaborators to develop a unified analytical theory and a first-principles numerical demonstration of the generation, amplification, and sustenance of magnetic fields. Their work, summarized by Zhou on this blackboard, demonstrates that in initially unmagnetized plasma, large-scale astrophysical flows both create microscopic seed fields that magnetize the plasma, and amplify them to dynamical strength.   This represents a fully self-consistent explanation of cosmic magnetogenesis, which can be further investigated by upcoming radio telescopes such as the Square Kilometer Array.   #Astrophysics #Astro #Astronomy #Astronomer #Physics #ScienceCommunication #SciCommunity #SciComm #ScientistsOfInstagram #ScientistLife #AlbertEinstein #TheoreticalPhysics #TheoreticalPhysicist #PhysicsOfTheUniverse #PhysicsQuestions #PhysicsProblems #PhysicsEquations #PhysicsPaper #PhysicsNotes #AcademicLife #AcademicChatter #Astronomia #MagneticField #PlasmaPhysics #SpaceLovers
#Theoretical Physicist Reel by @nonstandardmodels - Are you ready to explore quantum field theory? Before taking on harder topics in physics you need to be comfortable with basic math and classical phys
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@nonstandardmodels
Are you ready to explore quantum field theory? Before taking on harder topics in physics you need to be comfortable with basic math and classical physics: mechanics, thermodynamics, electromagnetism! Then we can delve into the prerequisites for QFT: Special relativity (e.g. Carroll, Wald) Quantum Mechanics (e.g. Sakurai, Griffiths) Classical field theory (e.g. Landau Lifschitz) QFT is at the core of all modern theoretical physics and, as such, different physicists may have different ideas on the required knowledge of QFT depending on the specific subfield of theoretical physics they work in! A good starting point might be visiting this website created by Nobel prize winner Gerard ‘t Hooft: https://www.goodtheorist.science/languages.html If you find yourself lacking the mathematical background, some good books to help you for studying theoretical physics are: Lie algebras in particle physics (Georgi) Complex analysis (Bak or Silverman) Geometry, topology, and physics (Nakahara) #textbooks #physicsbooks #physicstexts #physicsstudent #study #undergrad #physics #quantumtheory #quantumfield
#Theoretical Physicist Reel by @victoriaporozova (verified account) - The beauty of theoretical physics: principle of least action and Euler-Lagrange equations following from it. Digging into Quantum computing/Quantum
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@victoriaporozova
The beauty of theoretical physics: principle of least action and Euler-Lagrange equations following from it. Digging into Quantum computing/Quantum mechanics/Quantum field theory without understanding the basics of Theoretical Physics seems wrong to me. The foundation of theoretical physics and nature laws are based on Fermat’s principle or Maupertuis’s or Hamilton’s or the most known “Principle of Least Action”. This principle allows to derive the most general formulation the laws governing the motion of mechanical systems. By minimizing functional called action (S) we obtain the most general form of motion equations namely Euler-Lagrange’s equations which are used in Classical Mechanics, Classical Electrodynamics, Quantum Mechanics, Quantum Electrodynamics, hence QFT, and finally general relativity. It’s the heart of theoretical physics — from classical mechanics to quantum fields, from electrodynamics to general relativity, even plasma physics and cosmology. So as my follower, you will learn how to derive them by variation of action at any given time of day or night. TYPE: Landau in the comments and I will send you the free pdf with derivations! Let’s make theoretical physics great together! #fyp #womeninscience #womeninstem #quantumphysicist #theoreticalphysics #theoreticalphysicist #classicalmechanics #phd #phdthesis #electrodynamics #quantummechanics #quantumphysics #euler #lagrange #profesora #quantumelectrodynamics #physics #science #girlinscience #quantumfieldtheory #cosmology #gravitation #vquantpost #victoriaporozova
#Theoretical Physicist Reel by @thequantumbrief - Yale physics professor Ramamurti Shankar is known for making difficult subjects, including quantum mechanics, easier to understand. His approach focu
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@thequantumbrief
Yale physics professor Ramamurti Shankar is known for making difficult subjects, including quantum mechanics, easier to understand. His approach focuses on clarity rather than presentation. He starts from basic principles, defines terms carefully, and builds ideas step by step before moving to advanced concepts. This method is reflected in his Open Yale Courses lecture series, which has been widely used by students and self-learners worldwide. The lectures emphasize logical structure and gradual progression, helping viewers follow topics that are often considered inaccessible. His work shows that for complex subjects, clear organization and precise explanations can matter more than simplified shortcuts. Credit: https://m.youtube.com/@YaleCourses
#Theoretical Physicist Reel by @mathphysguy_uw - Physics Talk: Wednesday, March 25th, 7:00 PM! Answer this question with Dr. Epp: what actually is the Schrödinger wavefunction? Location: E2, Room 1
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@mathphysguy_uw
Physics Talk: Wednesday, March 25th, 7:00 PM! Answer this question with Dr. Epp: what actually is the Schrödinger wavefunction? Location: E2, Room 1736 🍕 There will be Epperoni (and other) pizza, provided for free alongside Dr. Epper In this talk, you’ll explore: - How the wavefunction is fundamentally relativistic, a wave with phase velocity *faster than the speed of light* for massive particles - How Einstein’s proposal for photons was brilliantly extended to all matter by de Broglie in his 1924 PhD thesis - Why special relativity necessarily implies that everything has wave-like properties, and how this inspired Schrödinger’s wave mechanics in the first place This talk is pitched at exactly the right level for PHYS 124 students, so if you’ve ever found the wavefunction mysterious, this is your chance to actually make sense of it! Made possible by @uwquantum @uw_phys_club #universityofwaterloo #physics #quantum #Schrödinger #freepizza
#Theoretical Physicist Reel by @academic_avengers - Quantum Mechanics for Kids Quantum Mechanics is a weird theory, but it's the one that actually matches how reality works. #quantummechanics #quantu
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@academic_avengers
Quantum Mechanics for Kids Quantum Mechanics is a weird theory, but it’s the one that actually matches how reality works. #quantummechanics #quantumphysics #scienceforkids #stem #education #scienceexplained #physics
#Theoretical Physicist Reel by @futuregenquantum (verified account) - Quantum mechanics studies the tiniest particles-electrons, photons, quarks-that make up everything in the universe, from stars to galaxies. It's the h
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@futuregenquantum
Quantum mechanics studies the tiniest particles—electrons, photons, quarks—that make up everything in the universe, from stars to galaxies. It’s the hidden rulebook of space and matter. In black holes, neutron stars, and the early universe, quantum effects like superposition and entanglement shape how matter behaves. Even dark matter and dark energy might be influenced by these tiny forces. Empty space isn’t really empty. Quantum fluctuations and vacuum energy drive the expansion of the universe and helped form galaxies. From the smallest particle to the largest galaxy, quantum mechanics connects all of space.
#Theoretical Physicist Reel by @computationphysics - Read the description: Physics, at its core, seeks to understand the fundamental laws governing the universe and everything within it, from the smalle
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@computationphysics
Read the description: Physics, at its core, seeks to understand the fundamental laws governing the universe and everything within it, from the smallest particles to the largest structures. It explores the nature of reality, including matter, energy, space, and time, and their interactions. While physics aims to unify our understanding, it's important to recognize that reality encompasses more than just the physical realm.  Do you agree? #physicist #sciencelover #sciencestudent #physicslovers #physicsfacts

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