Physics
It is a physical phenomenon explained by Ernest Rutherford in 1911 that led to the development of the Rutherford model.
Rutherford Alpha Particle Scattering Experiment post
It is a physical phenomenon explained by Ernest Rutherford in 1911 that led to the development of the Rutherford model. Check out our New Physics Magzine [dflip id=”4037″ ][/dflip]… Read More »Rutherford Alpha Particle Scattering Experiment
Rutherford Alpha Particle Scattering Experiment
Wait it may takes some time. Click right arrow to see more Illustration. [dflip id=”4037″ ][/dflip]
Illustration Diagram of Anti-Matter
“Electrons show both the properties of particles as well as waves, When an electron collides with other particles then it gets diffracted like light.” Source:… Read More »Electron as a wave and Particle
Electron as a wave and Particle
Gravity on Earth is 9.81 m/s^2 where as the gravity on Mars is 3.721m/s^2.
Gravity Facts
Key Idea: When light radiation of a certain frequency incident on the surface of the metal plate, causing the emission of electron from that surface… Read More »Photoelectric Effect
Photoelectric Effect
“Quantum Mechanics is the foundation of all quantum physics including quantum chemistry, quantum field theory, quantum technology, and quantum information science.” – Wikipedia Reference Source:… Read More »Graphical Structure of Quantum Mechanics
Graphical Structure of Quantum Mechanics
“Visualization of Virtual Particle ( an interaction of matter and anti-matter). Virtual Particles can be generated and then annihilated in a Vacuum without breaking the… Read More »Quantum Physics: Virtual Particle
Quantum Physics: Virtual Particle
Leptons are elementary particle (particle which is not made up of any other particle). It have half-integer spin. This is the pictorial representation of the… Read More »Generation of Leptons
Generation of Leptons
This is the pictorial representation of Beta Decay of Neutron. Check Out our new publish book, you may like = https://www.amazon.com/Google-Assistant-How…/dp/B093TLFCM2
Beta Decay of Neutron
Pion consists of a Quark and an Antiquark. They are unstable, so their mean lifetime 26.033 nanoseconds. GO to Home page for more Illustrations
Pion
Muon is an elementary particle similar to the electron, with an electric charge of -1 e and a spin of 1/2, but with a much… Read More »Muon Decay
Muon Decay
The Mass of Bottom Quark is approx. 4.18 GeV/c2 which is bit more than 4 times the mass of Proton. Introduction to Neutron Star: https://onheaven.co.in/…/06/introduction-to-neutron-star/ Reference… Read More »Bottom Quark’s mass is a bit more than four times the mass of proton
Bottom Quark’s mass is a bit more than four times the mass of proton
For More Detail about Neutron Star: Go for this Book: For Conclusion:
A Brief Introduction to Supernova
Pentaquark is a sub-atomic particle which consists of four quark and one anti-quark. Check Out our new Published Book: Introduction to Neutron Star: The Simple… Read More »Pentaquark
Pentaquark
Heisenberg uncertainity priciple was initially proposed for position-momentum conjugate pair. It states that it is are not possible to measure the precise simultaneous of position… Read More »The Precise meaning of Uncertainty Principle
The Precise meaning of Uncertainty Principle
Check Out our new Published Book: Introduction to Neutron Star: The Simple Guide for Understanding the Densest currently known class of Stellar Object Reference Source: [1]… Read More »The current most accepted model for the Universe
The current most accepted model for the Universe
According to Quantum Physics, Physical information is never lost, but according to general relativity & no-hair theorem, that information that enters in a Black Hole… Read More »What is Black Hole Information Paradox?
What is Black Hole Information Paradox?
This is the representational model of an Quark Model of Atom: What is Neutron Star, Available in Pdf File: Click Here to download
Quark Model of an Atom
Quantum Wave Function The behavior of Quantum Wave function under different conditions. Available in Printed Format with Other Science illustrations Get this in Printed Format
Quantum Wave Function
Quantum Tunneling Visualization Reference: [1] Wikipedia Contributors. “Quantum Tunnelling.” Wikipedia, Wikimedia Foundation, 12 Mar. 2021, en.wikipedia.org/wiki/Quantum_tunnelling. Accessed 16 Mar. 2021.
Quantum Tunneling Visualization
Click on the “PREVIEW” Button to read the introduction to Neutron Star in brief.
Introduction to Neutron Star (In Brief)
According to Quantum Field theory, interactions between objects occur via space-filling which is known as “lines of force”. These fields are fluid-like substances that can… Read More »Introduction to Quantum Field Theory (QFT)
Introduction to Quantum Field Theory (QFT)
Classical mechanics is a physical theory describing the motion of macroscopic objects. Earliest development of classical mechanics is often referred to as Newtonian mechanics. A… Read More »Classical Physics
Classical Physics
“ This type of experiment was first performed, using light, by Thomas Young in 1801, as a demonstration of the wave behavior of light.” The double-slit experiment is… Read More »Double-slit Experiment
Double-slit Experiment
A black hole is a region of space-time where gravity is so strong nothing—no particles or even electromagnetic radiation such as light—can escape from it.… Read More »Black Hole
Black Hole
Electric Field Lines due to positive and Negative Charges. This is the Computational Representation of Electric Field Lines Reference: [1] “Matplotlib.pyplot.streamplot() in Python – GeeksforGeeks.” GeeksforGeeks,… Read More »Electric Field Lines
Electric Field Lines
This is the Computation representation of the variation of Electric Potential Due to Point Charge. Reference: [1] Let’s Code Physics. “Electric Potential from Charge Density… Read More »Electric Potential Due to Point Charge
Electric Potential Due to Point Charge
This is the Potential Surface Distribution from 2V to -2V. Reference: [1] Let’s Code Physics. “Potential from Boundary Conditions (Computational Electromagnetism 1).” YouTube, 17 Aug. 2020,… Read More »Electric Potential Surface
Electric Potential Surface
This is the computation representation of heat distribution on rod, shown in diagram given below. Representation of heat distribution when it applied on the middle… Read More »Heat Distribution on Rod
Heat Distribution on Rod
Quantum Machine Learning = Quantum Mechanics + Classical Machine Learning Quantum machine learning uses quantum algorithm instead of classical algorithm. Quantum Machine Learning Empowers the… Read More »Quantum Machine Learning: Empowering Classical Machine Learning (Article #1)
Quantum Machine Learning: Empowering Classical Machine Learning (Article #1)
There are four fundamental forces: Electromagnetism Strong Nuclear Force Weak Nuclear Force Gravity Quantum physics tells, How matter Works. Quantum Physics shows that matter behave… Read More »Quantum Mechanics: Quantum physics tells, How matter Works (Article #1)
Quantum Mechanics: Quantum physics tells, How matter Works (Article #1)
Probability waves are flows of electrical energy that oscillate in such a way that they don’t manifest a definite result in a given time period.… Read More »Probability Waves (Article Summary)
Probability Waves (Article Summary)
Source: [1] The Secrets of the Universe. “What Is Quantum Physics, Exactly?” YouTube, 4 Apr. 2020, www.youtube.com/watch?v=VH-_EsAbpG0. Accessed 15 Jan. 2021.
Quantum Mechanics: Some Background
Source: [1] DoS – Domain of Science. “If You Don’t Understand Quantum Physics, Try This!” YouTube, 25 Feb. 2019, www.youtube.com/watch?v=Usu9xZfabPM. Accessed 15 Jan. 2021.
Quantum Physics: The Physics that Describe the Smallest Things
Quantum Machine learning is the intersection of two concepts, Quantum Mechanics and Machine Learning. Quantum Machine Learning = Quantum Mechanics + Classical Machine Learning Quantum… Read More »Quantum Machine Learning – 01 – Introduction (Summary)
Quantum Machine Learning – 01 – Introduction (Summary)
Quantum computing company, D-Wave, has made the technology available for commercial use. The quantum computers are in direct competition with the more traditional chips used… Read More »Another Hardware Alternative for ML and AI: Quantum Computing (Article Summary)
Another Hardware Alternative for ML and AI: Quantum Computing (Article Summary)
Quantum physics will be an inevitable, indispensable, and useful part of everyday life. Physicist and science philosopher Thomas Kuhn coined the term “paradigm shift”, We… Read More »Quantum Physics – Future Gold Mine (Article Summary)
Quantum Physics – Future Gold Mine (Article Summary)
If you know the state of one thing, you automatically know the state of another. If you know for certain that top card in a… Read More »Some Thoughts About Quantum Entanglement (Article Summary)
Some Thoughts About Quantum Entanglement (Article Summary)
Quantum theory is the branch of physics that deals with extremely small phenomena. The word, “quantum” means “the smallest, indivisible amount”. Quantum theory revolutionized modern… Read More »Quantum Theory – Why Modern Physics Needs More Feeling (Article Summary)
Quantum Theory – Why Modern Physics Needs More Feeling (Article Summary)
The quantum model of universe is an attempt to purge the Big Bang of its creationist implications. Physicists try to explain origination of matter from… Read More »Quantum Physics – The Discovery That Scientifically Demolished Materialism (Article Summary)
Quantum Physics – The Discovery That Scientifically Demolished Materialism (Article Summary)
Anaximander was the first actual theoretical physicist, at least from a philosophical concept standpoint. In his day with no equipment or background knowledge of quantum… Read More »Was Anaximander the First Quantum Theoretical Physicist in 540 BC? (Article Summary)
Was Anaximander the First Quantum Theoretical Physicist in 540 BC? (Article Summary)
Quantum computing is not really new, but it is a complicated structure based on quantum mechanics. Today’s computers are the product of a digital revolution.… Read More »A Giant Leap for Quantum Computing (Article Summary)