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WAElectron visualization
Visualizing the spin of an electron.
A glimpse into the quantum world
Next up: atoms, elemental particles, and the invisible forces that shape the universe!
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#Electron Cloud Model Atom Visualization
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GOWhat Does an Atom Really Look Like? 👉 Let’s explore the difference between these two atomic models and why the second one is considered more accurate structure of an atom:
The first part of the video depicts the atomic model proposed by Niels Bohr in 1913. While most of us are only familiar with this atomic structure, but it isn’t entirely accurate. It portrays electrons as tiny particles following well-defined paths around the nucleus, which isn’t quite how it works. The Bohr model was a stepping stone in our understanding of atoms, but it has limitations.
And the second part of the video depicts the Electron Cloud Model. This model suggests electrons occupy regions or orbitals around the nucleus with a certain probability. We can’t pinpoint an electron’s exact location but predict the probability of finding it in a specific region. This explains the cloud-like appearance.
The second atomic model, the electron cloud model, is considered more scientifically accurate than the Bohr model for two reasons:
1. Electron Behavior: Electrons don’t behave like miniature planets following precise paths. The electron cloud model acknowledges their wave-like nature, explaining their existence within probabilistic regions around the nucleus.
2. Spectral Lines: The electron cloud model explains the observed spectral lines of elements better than the Bohr model. These lines arise from electron transitions between energy levels within the electron cloud.
😊Did you find this fact interesting? Then, leave a ❤️ and a comment!
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GL✨️What does an atom look like?✨️
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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.
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🌐Clips used in this uploaded editing:Atomic Orbitals animation credit: Sci Pills ( YouTube channel)
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SC##AtomicModels
#StructureOfAtom
#AtomTheory
#AtomicTheory
ChemistryBasics
ChemistryConcept
➡️ Dalton’s Atomic Model – Atom as a solid indivisible sphere
➡️ Thomson’s Model – Plum pudding model with electrons
➡️ Rutherford’s Model – Dense nucleus with empty space
➡️ Bohr’s Model – Fixed energy levels for electrons
➡️ Modern Atomic Model – Electron cloud & probability
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BEATOMIC MODEL THROUGH HISTORY
1. John Dalton’s Model (1803) – Solid Sphere Model
Overview:
Dalton proposed that all matter is made up of indivisible particles called atoms.
He imagined atoms as tiny, solid spheres—like billiard balls.
Key Ideas:
Atoms of the same element are identical in mass and properties.
Atoms cannot be created, divided, or destroyed.
Compounds form when atoms of different elements combine in fixed ratios.
Importance:
First scientific model of the atom based on experimental evidence (like gas laws).
Laid the groundwork for modern chemistry.
---
2. J.J. Thomson’s Model (1904) – Plum Pudding Model
Overview:
After discovering the electron, Thomson proposed that atoms are made of a positively charged substance with negatively charged electrons scattered within it—like raisins in pudding.
Key Ideas:
Atoms are divisible.
Electrons are negatively charged subatomic particles.
The rest of the atom is a blob of positive charge to balance the electrons.
Importance:
First model to show that atoms have internal structure.
Introduced the idea of subatomic particles.
---
3. Ernest Rutherford’s Model (1911) – Nuclear Model
Overview:
Conducted the gold foil experiment where alpha particles were fired at a thin sheet of gold.
Most passed through, but some were deflected at large angles.
Key Ideas:
Atoms are mostly empty space.
A small, dense, positively charged nucleus is at the center.
Electrons orbit around this nucleus.
Importance:
Disproved the plum pudding model.
Introduced the concept of a nucleus.
---
4. Niels Bohr’s Model (1913) – Planetary Model
Overview:
Bohr expanded on Rutherford’s model using discoveries from quantum theory.
Key Ideas:
Electrons orbit the nucleus in fixed paths or “energy levels.”
Each level has a specific amount of energy.
Electrons can jump to higher levels when energy is absorbed and fall back down when energy is released (as light).
Importance:
Explained why atoms emit light in specific colors (atomic spectra).
Added the concept of quantized energy levels.
---
5. Erwin Schrödinger’s Model (1926) – Quantum Mechanical Model (Electron Cloud Model)
Overview:
Schrödinger used complex
@bestchemclub
78.8K
MOWhat Does an Atom Really Look Like? 👉 Let’s explore the difference between these two atomic models and why the second one is considered more accurate structure of an atom:
The first part of the video depicts the atomic model proposed by Niels Bohr in 1913. While most of us are only familiar with this atomic structure, but it isn’t entirely accurate. It portrays electrons as tiny particles following well-defined paths around the nucleus, which isn’t quite how it works. The Bohr model was a stepping stone in our understanding of atoms, but it has limitations.
And the second part of the video depicts the Electron Cloud Model. This model suggests electrons occupy regions or orbitals around the nucleus with a certain probability. We can’t pinpoint an electron’s exact location but predict the probability of finding it in a specific region. This explains the cloud-like appearance.
The second atomic model, the electron cloud model, is considered more scientifically accurate than the Bohr model for two reasons:
1. Electron Behavior: Electrons don’t behave like miniature planets following precise paths. The electron cloud model acknowledges their wave-like nature, explaining their existence within probabilistic regions around the nucleus.
2. Spectral Lines: The electron cloud model explains the observed spectral lines of elements better than the Bohr model. These lines arise from electron transitions between energy levels within the electron cloud.
😊Did you find this fact interesting? Then, leave a ❤️ and a comment!
🎯Follow @modernsciencex for more interesting Videos!!
🌐CREDIT COMPOSITION/FORMATTING/ EDITING
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Reposted from: @glamour_physics
Follow @modernsciencex For more insightful content on Science and Astronomy
Video credit of Atomic Orbitals animation: Sci Pills ( YouTube channel)
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@modernsciencex
145.6K
GLInteresting, 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
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EXAn atom is extremely small—so small that millions of them can fit across the width of a human hair. The diameter of a typical atom is about 0.1 nanometers, which is one ten-millionth of a millimeter. Atoms are made mostly of empty space, with a tiny, dense nucleus at the center surrounded by electrons. Despite their size, atoms are the basic building blocks of everything around us.
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Content Owner : CERN / YT
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#atom #educational #science #knowledge #explorer
@explainingeducation
5.8M
OL.
.
Imagine drawing shrödinger's model on paper 😭
.
.
John Dalton proposed that matter is composed of indivisible particles called atoms, laying the foundation for modern atomic theory in the early 1800s.
J.J. Thomson discovered electrons in 1897, leading to the "plum pudding" model, which described atoms as spheres of positive charge with embedded electrons (just like a plum pudding!). Subsequent experiments would prove this model wrong.
Ernest Rutherford, through his gold foil experiment in 1911, introduced the concept of a dense, positively charged nucleus at the center of the atom, around which electrons orbit. However his model couldn't explain the stability of the electron orbits (since electrons are attracted to protons, why doesn't the electrons collapse into the nucleus?)
In 1913, Niels Bohr developed a model where electrons travel in specific energy levels or shells around the nucleus, explaining atomic emission spectra. Bohr's model addressed the stability and spectral lines but only for simple atoms like Hydrogen.
Erwin Schrödinger, in 1926, introduced wave mechanics, describing electrons as wave functions, leading to probability distributions and orbitals. This approach resolved many of the previous model issues by providing the most accurate and comprehensive description of atom models even today.
@olsciencehub
62.4K
DIWhat Does an Atom Really Look Like? Let's explore the difference between these two atomic models and why the second one is considered more accurate structure of an atom:
The first part of the video depicts the atomic model proposed by Niels Bohr in 1913. While most of us are only familiar with this atomic structure, but it isn't entirely accurate. It portrays electrons as tiny particles following well-defined paths around the nucleus, which isn't quite how it works. The Bohr model was a stepping stone in our understanding of atoms, but it has limitations.
And the second part of the video depicts the Electron Cloud Model. This model suggests electrons occupy regions or orbitals around the nucleus with a certain probability. We can't pinpoint an electron's exact location but predict the probability of finding it in a specific region. This explains the cloud-like appearance.
The second atomic model, the electron cloud model, is considered more scientifically accurate than the Bohr model for two reasons:
1. Electron Behavior: Electrons don't behave like miniature planets following precise paths. The electron cloud model acknowledges their wave-like nature, explaining their existence within probabilistic regions around the nucleus. 2. Spectral Lines: The electron cloud model explains the observed spectral lines of elements better than the Bohr model. These lines arise from electron transitions between energy levels within the electron cloud.
Did you find this fact interesting? Then, leave a and a comment!
Follow @diversephysics for more interesting Videos!!
CREDIT COMPOSITION/FORMATTING/EDITING @glamour_physics
@modernsciencex
Reposted from: @glamour_physics
Follow @modernsciencex For more insightful content on Science and Astronomy
Video credit of Atomic Orbitals animation: Sci Pills
(YouTube channel)
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QUInside every atom, electrons do not follow fixed paths. They exist as quantum probability clouds, governed by wave behavior and fundamental physical laws.
#QuantumPhysics #AtomicStructure #Electrons #ModernPhysics #scienceeducation
@quantumxparadoxx
853.1K
QUCan you imagine visualizing a single atom scaled up to the size of Earth? Now, think about what the size of the nucleus would be in comparison to Earth.Comment down below.
The atom, the fundamental building block of matter, is a marvel of complexity and simplicity combined. At the heart of every atom lies the nucleus, a dense core composed of protons, which are positively charged particles, and neutrons, which carry no charge.
This nucleus holds nearly all the atom’s mass, despite being minuscule in size compared to the overall atom.
Surrounding the nucleus are electrons, negatively charged particles that occupy regions known as electron orbitals.
Unlike the neat orbits of planets around the sun, these orbitals are better described as “probability clouds” due to the principles of quantum mechanics. Electrons don’t have precise paths; instead, they exist in regions where they are most likely to be found.
Initially, John Dalton proposed that atoms were indivisible spheres. This idea evolved with J.J. Thomson’s discovery of the electron, suggesting atoms were divisible and included smaller particles.
Ernest Rutherford’s gold foil experiment revealed the existence of a dense nucleus at the atom’s center, surrounded by electrons. Niels Bohr refined this model, proposing that electrons orbit the nucleus in defined energy levels.
Modern quantum mechanics further revolutionized our understanding by introducing the concept of electron orbitals as “probability clouds” rather than fixed paths. These advancements highlighted the nucleus, composed of protons and neutrons, and the electrons that occupy regions based on quantum numbers: principal (n), angular momentum (l), and magnetic (m).
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