#Electron Definition

Prabhat board exam #Prabhat sir #Element #Symbol #Atomic number #trending boardexaminations

Quick Revision Time @ChemUnlock 🔥 Electrochemistry in ONE page — are you exam ready? 🎯 . . . . #studygramindia #neet2026 #quick #chemistry #neet

Shapes of Orbital Orbitals are regions around the nucleus where there’s a high probability of finding an electron. The shape depends on the subshell — s, p, d, or f. s-orbital: Spherical. Only 1 per energy level. Example: 1s, 2s, 3s. Gets larger with higher energy levels but stays a sphere. Can hold 2 electrons. p-orbital: Dumbbell-shaped. 3 per energy level starting from n=2. They lie along the x, y, and z axes: pₓ, pᵧ, p𝓏. Each can hold 2 electrons, so 6 total for p-subshell. d-orbital: 4 are cloverleaf-shaped, 1 looks like a dumbbell with a donut around the middle. 5 per energy level starting from n=3. Holds 10 electrons total. f-orbital: Complex shapes with multiple lobes. 7 per energy level starting from n=4. Holds 14 electrons total. Key point: Orbitals don’t show a fixed path. They show electron density. The boundary surface encloses ∼90% probability of finding the electron there. #AtomicOrbitals #ElectronCloud #Chemistry #ScienceReels

Electricity Full Concept With Diagram Class 10 science New Session #science #class10 #education #physics #ujjwalstudynotes

Chemistry class - atomic structure👌🏽 #rappingscienceteacher #gcse #science #atomicstructure #atom #subatomic #proton #neutron #electron #exams #revision #stem #school #combinedsciencegcse #chemistry

⚛️✨ STRUCTURE OF ATOM is where the journey of science truly begins 🌍🧪 Everything around us — from air 🌬️ to stars 🌟, from your phone 📱 to your own body ❤️ — is made of tiny atoms! This colorful handwritten note 📖🖍️ transforms one of the most important Chemistry chapters into a SUPER EASY visual learning experience 🚀🧠 🔴 Protons 🔵 Electrons 🟣 Neutrons ⚡ Bohr’s Atomic Model 📚 Atomic Number & Mass Number —all explained with diagrams, formulas & real-life examples 🎯✨ No boring theory ❌ No confusing language ❌ Only smart notes that help concepts stay in your memory longer 💯🔥 Because real learning happens when you UNDERSTAND the concept, not just memorize it 📘⚡ 🌈 Every diagram, color and flowchart is designed to make revision faster and learning more interesting 🎨📚 📌 Save this post for quick revision 📌 Share with your study partner 📌 Comment “PDF” for complete notes 💬📖 Smallest particle… Biggest concept 💥⚛️ #sciencenotes #neetprep #chemistrynotes #upac#atom

Ionic bonds form when one atom transfers electrons to another, creating charged ions that attract each other. This strong electrostatic pull builds solid structures like salt crystals. From minerals to chemical reactions, ionic bonds show how simple electron exchange can create stable, repeating patterns in matter.

✨️What does an atom look like?✨️ ⬇️⬇️ Did you know? The structure of the atom, according to Bohr's model and other early 20th-century models, can be described in physical terms quite simply: Atomic Nucleus: At the center of the atom is the nucleus, composed of protons (positively charged particles) and neutrons (neutral particles). This nucleus contains most of the atom's mass. Electrons: Electrons are negatively charged particles that orbit the nucleus in specific layers or energy levels. In Bohr's model, these levels are well-defined, and electrons can move between levels by absorbing or emitting energy in the form of photons. Quantum Models: Following Bohr's model, more advanced models incorporating quantum mechanics principles were developed. Let's start discussing atomic orbitals, wave functions, eigenstates, Hilbert space, Heisenberg's uncertainty principle, radial distribution functions, etc. Etc. All of these were introduced following Bohr's atomic model and Scattering Rutherford . These models treat the positions of electrons not as precise orbits but as "probability clouds" that indicate where an electron is most likely to be found at any given time. These initial physical models of the atom laid the groundwork for modern understanding of atomic structure, which continues to evolve with further research and technological developments. ✨️✨️✨️ 🌐Music: Gangsta - Nobody knows (Remixed) 🌐Clips used in this uploaded editing:Atomic Orbitals animation credit: Sci Pills ( YouTube channel) ☆•☆•☆ ☆▪︎☆▪︎☆ 🌐CREDIT COMPOSITION/FORMATTING/ EDITING/FURTHER PROCESSING @glamour_physics @modernsciencex CONTENT USED FOR EDUCATIONAL PURPOSES ONLY ☆•☆•☆ For more insightful content on Science and Astronomy 🌐FOLLOW @glamour_physics ☆▪︎☆▪︎☆ For the pics/clips used in this uploaded editing: All Rights And Credits Reserved To Respected Owner (s) No copyright infringement intended . Copyright issues? DM us. ☆▪︎☆▪︎☆ ⚠️IMPORTANT⚠️ Don't repost without our permission #atom #nuclearphysics #atomic #atomicphysics #fisica #bohr #quantumtheory #quantummechanics #particlephysics Atomo Atoms

The Bohr model of the atom was proposed by Niels Bohr in 1913 to explain the structure of atoms, especially hydrogen. 🔹 Main ideas of the Bohr model Electrons revolve in fixed orbits (energy levels) Electrons move around the nucleus in circular paths called shells or orbits (K, L, M, N…). Each orbit has a fixed energy. Quantization of energy Electrons cannot have any random energy. They can only exist in specific energy levels. No energy loss in stable orbits While moving in a fixed orbit, electrons do not radiate energy. This explains why atoms are stable. Energy is emitted or absorbed during transitions When an electron jumps: To a higher orbit → absorbs energy To a lower orbit → emits energy (as light/photons) Angular momentum is quantized Electron’s angular momentum is given by: - n = 1, 2, 3, ... (principal quantum number) 🔹 Diagram description (how it looks) A small nucleus at the center (protons + neutrons) Circular orbits around it Electrons shown moving in these fixed paths 🔹 Importance Successfully explained the hydrogen spectrum Introduced the idea of quantized energy levels 🔹 Limitations Works well only for single-electron atoms (like hydrogen) Cannot explain: Multi-electron atoms Fine spectral lines Electron wave behavior #bohratomicmodel #physicsvibespk #modernphysics #bohrmodel #trending

✨️Lifespan of an Electron ✨️Did You Know?✨️👇 The term “lifespan of an electron” refers to the theoretical time an electron would exist before decaying into other particles. The estimate of an electron lifetime of at least 66,000 yottayears (6.6 × 10^28 years) is based on experiments and observations that have not detected any decay of the electron. This suggests that the electron is extremely stable, perhaps perfectly stable in the context of the Universe’s age. His lifetime would correspond to about five-quintillion times the current age of the Universe. Standard Model of particle physics treats the electron as a stable elementary particle. Its stability is consistent with the conservation of electric charge, which is one of the fundamental principles of the Standard Model. If electrons could decay, it would indicate the existence of physics beyond the Standard Model. The discovery of such a process would violate the principle of charge conservation and suggest new mechanisms and particles not yet discovered, requiring a substantial revision of our understanding of fundamental physics. The conservation of electric charge is a universally conserved principle in all observed interactions to date in particle physics. Any evidence of electron decay violating this conservation would be a revolutionary discovery. 🙌 Tag someone who would love to see this post!! & 🎯Follow @modernsciencex for more interesting posts. ☆•☆•☆ 🌐Credit each video clip or animation used in editing; Pixabay MelodySheep ( YouTube) 👤Tag your friends 🎯Follow @modernsciencex 🎯Follow @modernsciencex 🎯Follow @modernsciencex Video edited by @modernsciencex @glamour_physics All rights reserved for respected owners content is used to for educational purposes only. Images credit to respective creators and Artists. #spacelover #water #earth #hydrogen #bigbang #astronomy #naturelovers #astrophysics #astrochemistry #quantumphysics #quantumhealing #quantumtheory #electron

Interesting, isn't it ? Did you know it ? ☆ •An Electron Cloud is the region of negative charge surrounding the atomic nucleus. It is associated with an atomic orbital. "Electron cloud "was defined around 1925 , when the great Erwin Schrödinger and Werner Heisenberg were seeking a way to describe the uncertainty of the position of electrons in a atom. 1927 Uncertainty principle by Heisenberg 1925/26 Schrödinger Equation ☆▪︎☆▪︎☆ 🌐If u want to know more, WRITE the word HELLO in the comments, and we will do a post about this topic soon. ☆▪︎☆▪︎☆ THANKS FOR WATCHING!!! ☆▪︎☆▪︎☆ Each Video clip credit: Sci Pills/ Simulation Physics ( pinterest) / Geek 3 (Wikimedia) ,& Canva ☆▪︎☆▪︎☆ 🌐CREDIT EDITING @glamour_physics @modernsciencex IF YOU APPRECIATE OUR WORK 🌐FOLLOW @glamour_physics ☆▪︎☆▪︎☆ For more content EDUCATIONAL PURPOSES ONLY 🌐FOLLOW @glamour_physics ☆▪︎☆▪︎☆ For the pics used in this uploaded editing: All Rights And Credits Reserved To Respected Owner (s) Content Is Used For Educational Purposes Only No copyright infringement intended . Copyright issues? DM us. ☆▪︎☆▪︎☆ ⚠️IMPORTANT⚠️ This is the original content of @glamour_physics and @modernsciencex Our work cannot be copied or reposted without our permission ☆▪︎☆▪︎☆ #fisicaquantica #fisica #physicfun #particles #particephysics #bohr #atom #clouds #wavefunction #heisenberg #schrodinger #equation #discover #know #sciencedaily #scienceisfun

Electricity important formulas . . . . #electricity #science #scienceclass #sciencedaily #formula #scienceformula #physics #scienceclass10 #physicsclass #physicsfun #physicslove #physicsclass10 #cbse #physicsclass12 #class10 #class12 #boardexam #boardexam2025🖊️📚🖊️📓📋 #cbseboardexam #upboard #harsanaclasses #trending #explorepage #viral #trendingnow #reelitfeelit #reelkarofeelkaro #reels #réel #reel