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Brain Hacks: Learn Faster, Get SmarterLearn Complex Concepts Quickly: The Genius Learning Hack from Richard FeynmanCertainly! Here's a cool and interesting brain hack that can help you get smarter: The Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to learn and understand complex concepts. Here's how it works:1. Choose a concept you want to learn about, such as quantum mechanics, blockchain technology, or the French Revolution.2. Pretend you're teaching the concept to a child. This means breaking it down into simple, easy-to-understand language. If you can't explain it simply, you don't understand it well enough.3. Identify any gaps in your...2025-05-0202 minBrain Hacks: Learn Faster, Get SmarterLearn Like a Genius: Richard Feynman's Powerful Memory Hack for Mastering Any TopicCertainly! Here's a cool and interesting brain hack that can help you get smarter: The Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to learn and understand complex topics. The best part? It's practical and easy to implement in your daily life.Here's how it works:1. Choose a concept or topic you want to learn about. It could be anything from quantum mechanics to the history of ancient civilizations.2. Pretend you're teaching the concept to a child. This step is crucial because it forces you...2025-02-2402 min
Mentes Brillantes de la CienciaNarración para Dormir | El Genio que Hizo la Física Divertida | Richard Feynman🔬✨ ¿Quién fue Richard Feynman? En este video exploramos la vida y los logros de uno de los físicos más brillantes y carismáticos del siglo XX. 🎓🌌 Desde sus revolucionarios diagramas de Feynman 🖋️📊 hasta su humor único y su capacidad para explicar la física más compleja de forma sencilla, Feynman dejó un legado inolvidable. 💡 Descubre: ⚛️ Su trabajo en la electrodinámica cuántica (QED) 📚 Su pasión por enseñar y divulgar ciencia 🎶 Sus hobbies, como tocar los bongos y explorar el arte 🚀 Su papel en la investigación del desastre del Challenger 🌍 Feynman no solo cambió la física, ¡también inspiró a generaciones a...2025-02-122h 29Brain Hacks: Learn Faster, Get SmarterLearn Anything Fast: The Genius Brain Hack Physicist Richard Feynman Swears ByCertainly! Here's a cool and interesting brain hack that can help you get smarter: The Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to deeply understand and retain complex information. Here's how it works:1. Choose a concept or topic you want to learn about, such as quantum mechanics, blockchain technology, or Renaissance art.2. Pretend you're teaching the concept to a child or someone with no prior knowledge of the subject. This forces you to break down the information into its simplest terms and analogies.3. Get...2024-12-3002 minBrain Hacks: Learn Faster, Get SmarterLearn Faster and Smarter: The Genius Brain Hack Named After Richard FeynmanCertainly! Here's a cool and interesting brain hack that can help you become smarter: The Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to deepen your understanding of a subject and improve your ability to explain it to others. Here's how it works:1. Choose a concept or topic you want to learn about, such as quantum mechanics, blockchain technology, or abstract expressionism.2. Pretend you're teaching the concept to a child or someone with no prior knowledge of the subject. This forces you to break down the idea...2024-12-1102 minBrain Hacks: Learn Faster, Get SmarterBrain Hack: Master Any Complex Topic Using Richard Feynman's Learning TechniqueCertainly! Here's a cool and interesting brain hack that can help a person get smarter: The Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to learn and understand complex concepts by teaching them to others. The beauty of this method lies in its simplicity and effectiveness. Here's how it works:1. Choose a topic you want to learn about, and write it at the top of a blank piece of paper.2. Imagine you're teaching the concept to a child or someone with no prior knowledge of the subject...2024-12-1002 min
Tetragrammaton with Rick RubinUNEXPECTED CONVERSATION: Richard FeynmanIn this episode, Rick connects with the physicist and Nobel Prize winner Richard Feynman. Known for his groundbreaking contributions to quantum mechanics, Feynman’s work inspires curiosity and innovation in science.------Sign up to receive Tetragrammaton Transmissionshttps://www.tetragrammaton.com/join-newsletter2024-11-3049 minBrain Hacks: Learn Faster, Get SmarterLearn Any Complex Topic Fast: The Genius Brain Hack from Nobel Physicist Richard FeynmanCertainly! Here's a cool and interesting brain hack that can help you get smarter: the Feynman Technique.Named after the brilliant physicist Richard Feynman, this technique is a powerful way to learn and understand complex concepts by teaching them to others. The beauty of this brain hack lies in its simplicity and effectiveness. Here's how it works:1. Choose a topic you want to learn or understand better. It could be anything from quantum mechanics to the intricacies of ancient Egyptian history.2. Pretend you're teaching the concept to a child or someone with no prior...2024-11-2602 min
Motivate Me; Inspirational SpeechesRichard Feynman - There's no such thing as a miracle motivational speech🎙️🔬 "Richard Feynman: There’s No Such Thing as a Miracle" 🔬🎙️In this thought-provoking episode, we delve into the mindset of legendary physicist Richard Feynman as he shares his perspective on science, nature, and the belief that "There’s No Such Thing as a Miracle." Known for his groundbreaking work in quantum mechanics and his relentless curiosity, Feynman believed that what we often call "miracles" are simply natural phenomena we don’t yet fully understand. 🌟💡Feynman emphasizes that true wonder comes from the pursuit of knowledge and the exploration of how the universe works through science and reason. 🚀🔬 He argues tha...2024-11-2405 min
Conversations Beyond Their LivesEp 52- Richard Feynman and Isaac NewtonIn this episode, host Victor Aether speaks with the AI personas of Richard Feynman, the Nobel-winning physicist, and Sir Isaac Newton, the father of classical mechanics and calculus. Feynman reflects on his approach to quantum mechanics and teaching, while Newton shares his groundbreaking work on motion and gravitation. Both discuss the vital role of curiosity, mathematics, and perseverance in shaping the future of science. Join Victor for an insightful exploration of the lives and legacies of two of history’s greatest scientific minds.
2024-11-1408 min
Motivate Me; Inspirational SpeechesRichard Feynman - If you want to master something, teach it motivational speech🎙️🧠 "Richard Feynman: If You Want to Master Something, Teach It" 🧠🎙️In this intellectually stimulating episode, we explore the timeless wisdom of renowned physicist Richard Feynman, who famously said, "If You Want to Master Something, Teach It." Known for his brilliant mind and engaging teaching style, Feynman believed that the key to truly mastering a concept lies in your ability to explain it to others. 🌟💡Feynman’s approach, often called the "Feynman Technique," emphasizes breaking down complex ideas into simple, understandable parts. 🚀🔥 He explains that teaching forces you to clarify your understanding, pinpoint gaps in your knowledge, and develop a deepe...2024-11-1007 min
Daron PerryRead online Genius: The Life and Science of Richard Feynman By James Gleick (Author) Full Episodehttps://yuandipro.firebaseapp.com/?GASS=0679747044 . Click This Link To Access Genius: The Life and Science of Richard Feynman by James Gleick (Author) Book Supports all formats, Such as: EPUB, PDF , AZW3, MOBI, IBA, & RTF Book Title: Genius: The Life and Science of Richard Feynman Book Author: James Gleick (Author) Book Rating: 9+ ratings Powered by Firstory Hosting2024-10-2400 min
English Language Teachers (ELT): Under The CoversRichard Feynman: Educating the Masses | Teaching Master!
Richard Feynman: Educating the Masses | Teaching Master!
How to be a teacher everyone remembers? You teach like Richard Feynman!
Richard Feynman was an American physicist, known for his work in the field of quantum mechanics and his contributions to the development of the atomic bomb as part of the Manhattan Project. Feynman was a professor of physics at the California Institute of Technology (Caltech) and received numerous awards for his work, including the Nobel Prize in Physics in 1965.
Feynman was known for his unique and unorthodox approach to physics, often using simple and intuitive explanations to understand complex phenomena...2024-10-1639 min
The Dead Scientists PodcastSymmetry in Nature: Reflections, Chirality, and Broken Symmetries with Richard FeynmanIn the final episode of the first season of The Dead Scientists, we delve into Richard Feynman’s exploration of symmetry in physical laws. Feynman begins by defining symmetry and explaining the known symmetries in space and time, such as translation, rotation, and uniform velocity. He then tackles the topic of identical particles and why physical laws are not symmetrical under a change of scale.
The episode also examines the fascinating concept of mirror reflections, focusing on the role of chirality in biological molecules like amino acids. Feynman explains how the laws of physics seem symmetrical under re...2024-10-1312 minThe Dead Scientists PodcastUnderstanding Modes: Vibrations, Frequencies, and the Link to Quantum Mechanics with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s insightful explanation of modes. Feynman introduces modes as specific patterns of motion in vibrating systems that oscillate at characteristic frequencies. Starting with the reflection of a wave on a string fixed at one end, Feynman explains how wave reflections create nodes—points of zero displacement—along the string.
We then extend this concept to a string fixed at both ends, revealing that such a system can only sustain sinusoidal motion at specific, natural frequencies, determined by the string's length and wave speed. From here, we explor...2024-10-1207 minThe Dead Scientists PodcastThe Science of Beats: Interference, Modulation, and Energy Transfer with Richard Feynman
In this episode of The Dead Scientists, we delve into Richard Feynman’s explanation of the fascinating phenomenon of beats. Feynman introduces how beats occur when two waves with slightly different frequencies interfere, producing a wave with an average frequency and a pulsating intensity. The beat frequency is determined by the difference between the two original frequencies.
We explore the application of this concept in amplitude modulation (AM) radio waves, where the amplitude of a carrier wave is modulated by an audio signal, leading to the creation of sidebands. Feynman also tackles the apparent paradox of wave pr...2024-10-1106 minThe Dead Scientists PodcastThe Physics of Sound: Deriving the Wave Equation with Richard Feynman
In this episode of The Dead Scientists, we dive into Richard Feynman’s exploration of the physics behind sound waves from The Feynman Lectures on Physics. Feynman starts with the basics of sound, explaining how pressure changes in a medium, caused by the motion of particles, lead to the propagation of sound waves.
We break down the key variables involved in sound wave propagation—displacement, density, pressure, and velocity—and see how they interrelate. Feynman introduces the wave equation, a powerful tool that not only describes the behavior of sound waves but also allows for predic...2024-10-1110 minThe Dead Scientists PodcastBrownian Motion and the Equipartition of Energy: Understanding Random Movement with Richard FeynmanIn this episode of The Dead Scientists, we explore the fascinating world of Brownian movement as explained by Richard Feynman. Feynman dives into the seemingly random jiggling of particles suspended in a fluid, connecting this phenomenon to key principles in statistical mechanics.
We begin with the concept of equipartition of energy, which states that in thermal equilibrium, each degree of freedom in a system has an average energy. Feynman uses this principle to explain the motion of colloidal particles, originally observed by Robert Brown, and demonstrates how even heavier particles in a fluid reach thermal equilibrium with...2024-10-0609 minThe Dead Scientists PodcastExploring Statistical Mechanics: Molecules, Boltzmann's Law, and Molecular Speeds with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman’s exploration of statistical mechanics. He unpacks the principles that connect the macroscopic properties of matter to the behavior of its microscopic particles, offering insights into how molecules behave in space and how their speeds are distributed.
We begin with Boltzmann's law, which describes how molecules are distributed in space based on their potential energy and temperature. Feynman shows how this principle explains key phenomena like the distribution of molecules around an ion in a liquid and the evaporation of liquids. We then explore the di...2024-10-0608 minThe Dead Scientists PodcastThe Kinetic Theory of Gases: Understanding Pressure and Temperature with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s insightful breakdown of the kinetic theory of gases. Feynman dives into how the macroscopic properties of matter, such as pressure and temperature, are explained by the collective behavior of its atoms.
We’ll begin by understanding how gas pressure arises from the collisions of atoms with the walls of a container, using a box with a piston as an example. Feynman then connects this to the concept of temperature, explaining it as a measure of the average kinetic energy of gas atoms, and shows how diff...2024-10-0609 minThe Dead Scientists PodcastThe Science of Color Vision: Understanding How We See with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s fascinating breakdown of human color vision from The Feynman Lectures on Physics. Feynman takes us on a journey through the physical structure of the human eye, focusing on the roles of rods and cones in light detection and their varying sensitivities in bright and dim conditions.
We delve into the phenomenon of color mixing, where Feynman explains how different wavelengths of light can combine to create the same perceived color, despite their physical differences. Using the technique of a "null instrument," he demonstrates how colors ar...2024-10-0410 minThe Dead Scientists PodcastExploring Light Polarization: From Scattering to Optical Activity with Richard FeynmanIn this episode of The Dead Scientists, we dive into the intriguing world of light polarization, as explained by Richard Feynman in The Feynman Lectures on Physics. Feynman introduces the different types of polarization—linear, circular, and elliptical—defined by the oscillation pattern of the electric field, and illustrates how these forms of polarization appear in real-world phenomena.
We’ll explore how polarization arises in light scattering, where light interacts with charged particles in the air, and the fascinating phenomenon of birefringence, where the refractive index changes based on polarization direction, demonstrated by materials like cellophane and Kerr c...2024-10-0414 minThe Dead Scientists PodcastRadiation Damping and the Blue Sky: Energy Loss in Accelerating Charges with Richard FeynmanIn this episode of The Dead Scientists, we delve into the phenomenon of radiation damping as explained by Richard Feynman in The Feynman Lectures on Physics. Feynman unravels the energy loss associated with accelerating charges, starting with the concept of radiation resistance—the work required to accelerate a charged particle, which leads to the radiation of energy.
We’ll explore the derivation of the formula for total radiated power in non-relativistic motion and how this energy loss gives rise to radiation damping. Feynman shows how this damping limits the lifetime of oscillating charges, such as those within atom...2024-10-0407 minThe Dead Scientists PodcastThe Mystery of Light: Understanding the Refractive Index with Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman’s explanation of the refractive index. Feynman unpacks the curious phenomenon of why light appears to travel slower in materials like glass, even though the electric field from each charge still propagates at the speed of light.
In this episode of The Dead Scientists, we dive into Richard Feynman’s explanation of the refractive index from The Feynman Lectures on Physics. Feynman unpacks the curious phenomenon of why light appears to travel slower in materials like glass, even though the electric field from each charge stil...2024-10-0315 minThe Dead Scientists PodcastThe Wonders of Diffraction: Light, Waves, and Resolving Power with Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman’s exploration of diffraction. Feynman sheds light on the fascinating phenomenon of diffraction—the spreading of waves as they pass through openings or around obstacles—emphasizing that it is closely related to interference. Both involve the superposition of waves, making them fundamentally the same process.
We’ll explore how light intensity changes when it passes through an array of equally spaced oscillators, creating sharp maxima and weaker side lobes, leading to the concept of a diffraction grating. This device splits light into its component wavelengths and is e...2024-10-0312 minThe Dead Scientists PodcastElectromagnetic Radiation: Maxwell’s Legacy with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s introduction to electromagnetic radiation. Feynman highlights James Clerk Maxwell’s groundbreaking work that unified electricity and magnetism, revealing the existence of electromagnetic waves—light, radio waves, and other forms of energy traveling through space.
Join us as we dive into Maxwell’s revolutionary contribution, which transformed our understanding of how distant stars and galaxies communicate with us through waves. Feynman simplifies the complex mathematics of electromagnetism, focusing on the electric field produced by a single accelerating charge at a distance, making the intricate world of radiatio...2024-10-0210 minThe Dead Scientists PodcastThe Principle of Least Time: From Classical Optics to Quantum Insights with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s captivating discussion on the Principle of Least Time in optics. Feynman takes us on a journey through the historical evolution of geometrical optics, a simplified study of light that focuses on reflection and refraction, setting aside its wave and quantum nature.
We begin by tracing the development of our understanding of light through key figures like Ptolemy and Snell. Then, Feynman introduces Fermat's Principle of Least Time, a brilliant theoretical tool that explains how light takes the path that requires the shortest time, providing insights in...2024-10-0211 minThe Dead Scientists PodcastThe Power of Resonance: Exploring Oscillations with Complex Numbers and Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman’s elegant exploration of resonance and oscillatory motion using the power of complex numbers. Feynman demonstrates how complex numbers provide a streamlined approach to analyzing systems like the forced harmonic oscillator, making the mathematics of oscillations more accessible and insightful.
Starting with a basic oscillator without friction, we see how complex numbers simplify the analysis of periodic motion. Feynman then adds a damping term, incorporating friction into the equation, which leads to a more realistic model. This journey through oscillatory motion culminates in a deep un...2024-10-0111 minThe Dead Scientists PodcastThe Power of Linear Systems: Oscillations, Superposition, and Resonance with Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman’s exploration of linear systems and their profound applications in oscillating systems. Feynman introduces the concept of a linear operator, which simplifies the notation of differential equations used to describe these systems, and illustrates two key properties: superposition and the combination of solutions.
Discover how superposition—the idea that the response of a linear system to a sum of forces equals the sum of the individual responses—helps explain phenomena like radio tuning, where multiple signals can be separated using resonant circuits. Feynman also delves into t...2024-10-0110 minThe Dead Scientists PodcastTransient Oscillations: The Dance Between Energy and Resistance with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s insightful explanation of transient oscillations, a fascinating behavior observed in systems without external forces but that still hold energy. Feynman begins by examining how energy is stored in oscillators and how power is applied to the system, before diving into the energy dissipation caused by resistance.
Join us as we explore the mathematical analysis of damped oscillations, where systems lose energy over time, leading to the amplitude of oscillations decreasing exponentially. Feynman walks us through the differential equation governing this process, showing how resistance controls th...2024-10-0109 minThe Dead Scientists PodcastFrom Algebra to Euler: Unveiling the Connections Between Math and Physics with Richard FeynmanIn this episode of The Dead Scientists, we explore Richard Feynman’s journey through the foundational concepts of elementary algebra and their surprising connections to the physical world. Feynman begins by breaking down the core operations of algebra—addition, multiplication, and exponentiation—and shows how these basic tools lead to the discovery of new types of numbers, like negatives, fractions, and irrational numbers.
As algebra becomes more complex, Feynman introduces us to the world of complex numbers, where the imaginary unit i (the square root of -1) opens the door to solving any algebraic equation. The exploration of the...2024-09-3009 minThe Dead Scientists PodcastThe Harmonic Oscillator: Periodic Motion and Resonance with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman’s insightful exploration of the harmonic oscillator, one of the most fundamental physical systems exhibiting periodic motion. Starting with a simple mechanical system like a mass on a spring, Feynman explains how the underlying principle of harmonic motion is captured by a linear differential equation that extends far beyond mechanics, appearing in fields like acoustics, electromagnetism, and even biology.
Join us as we explore the mathematical solution to this equation, revealing how the displacement of the mass follows a cosine function governed by the mass an...2024-09-3009 minThe Dead Scientists PodcastTorque in Three Dimensions: Unraveling Precession with Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman’s exploration of torque in three dimensions. While the principles of torque and angular momentum in two dimensions may seem familiar, Feynman expands these concepts to encompass the complexities of three-dimensional space.
Feynman introduces the use of vectors to represent torque, explaining how the direction of the vector is always perpendicular to the plane of torque. He illustrates this with equations that show how torque transforms across different coordinate systems, providing a deeper understanding of rotational dynamics.
The episode culminates in an analysis of...2024-09-3010 minThe Dead Scientists PodcastMass and Motion: Exploring Rigid Body Dynamics with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman's insightful exploration of the center of mass and its crucial role in understanding the dynamics of rigid bodies. Discover how Newton's laws of motion, when applied to the center of mass of complex objects, accurately describe their motion—implying that these laws are "self-reproducing" on larger scales, even if they aren't the fundamental laws at the atomic level.
We'll discuss the relationship between the center of mass and the center of gravity, highlighting why this distinction matters in practical applications. Learn about the importance of th...2024-09-2910 minThe Dead Scientists PodcastExploring Space-Time: Unifying Dimensions with Richard FeynmanIn this episode of The Dead Scientists, we dive into Richard Feynman's insightful introduction to the concept of space-time. Discover how space and time merge into a single, four-dimensional framework that reshapes our understanding of the universe.
We'll explore the fundamental principle that the relationship between space and time isn't absolute but depends on the observer's frame of reference. Learn about the Lorentz transformation, which intertwines space and time measurements between different inertial frames, leading to the notion of the space-time interval—a quantity invariant under these transformations and analogous to distance in Euclidean space.
By...2024-09-2910 minThe Dead Scientists PodcastRelativistic Energy and Momentum: Unveiling Einstein's Legacy with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman's enlightening exploration of relativistic energy and momentum. We begin by addressing common misconceptions, particularly the mistaken belief that relativity implies "all is relative." Feynman emphasizes that the theory of relativity is rooted in experimental observations, not just abstract philosophy.
Join us as we uncover the core principles of relativity, including the Lorentz transformation and the addition of velocities, which fundamentally changed our understanding of space and time. Discover how the mass of an object increases with its velocity and how energy itself has inertia.
2024-09-2815 minThe Dead Scientists PodcastThe Birth of Relativity: Einstein's Revolution with Richard Feynman
In this episode of The Dead Scientists, we delve into Richard Feynman's captivating exploration of the development of the special theory of relativity. We begin by examining the conflict that arose when Newton's laws of motion were applied to light, revealing contradictions with Maxwell's equations of electromagnetism.
Discover how the Michelson-Morley experiment, designed to detect Earth's movement through the hypothetical "ether," yielded a surprising null result, challenging existing notions of space and time. We'll discuss Lorentz's proposal of length contraction to explain these findings and how Einstein expanded upon this idea, introducing time dilation and...2024-09-2811 minThe Dead Scientists PodcastThe Nature of Force: Beyond Newton with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman's insightful exploration of the concept of force. Feynman begins by challenging the simplicity of traditional definitions, emphasizing the complexities and limitations within Newton's laws.
Join us as we journey beyond basic explanations to understand the various types of forces that govern our universe. We'll discuss "dry" forces like friction and air resistance, delve into molecular forces arising from atomic interactions, and examine the fundamental forces of gravity, electricity, and magnetism. Feynman introduces the concept of fields as powerful tools for analyzing these forces, simplifying calculations...2024-09-2715 minThe Dead Scientists PodcastSymmetry and Vectors: Unveiling the Invariance of Physical Laws with Richard Feynman
In this episode of The Dead Scientists, we explore Richard Feynman's insightful discussion on the role of symmetry in physical laws. Dive into the fascinating concept that the laws of physics remain unchanged—even when we shift or rotate our coordinate systems. Feynman illustrates how Newton's laws of motion can be expressed independently of any specific coordinate setup, emphasizing the universal nature of these principles.
To simplify and effectively represent quantities that have both magnitude and direction, we'll introduce the powerful mathematical tool of vectors. Learn how vectors can be added, subtracted, and multiplied by sc...2024-09-2711 minThe Dead Scientists PodcastThe Unchanging Truth: Conservation of Momentum with Richard FeynmanIn this episode of The Dead Scientists, we delve into Richard Feynman's enlightening exploration of the fundamental principle of conservation of momentum. Discover how Feynman addresses the limitations of purely analytical and numerical methods in tackling complex mechanical problems involving many interacting particles, such as those found in gases.
Join us as we unpack how Newton's Third Law—"action equals reaction"—leads to the conservation of momentum in systems of interacting particles. Feynman builds a compelling case for this principle, starting with the assumption that the laws of physics are the same for all observers in uniform moti...2024-09-2611 minThe Dead Scientists PodcastEmbracing Uncertainty: Probability in Physics with Richard Feynman
In this episode of The Dead Scientists, we explore Richard Feynman's insightful introduction to the concept of probability and its vital role in physics. Starting with the fundamental definition of probability as a measure of likelihood based on incomplete information, Feynman emphasizes how probabilities are subjective and evolve with our knowledge.
Join us as we delve into simple examples like coin tossing to illustrate how probability estimates the likelihood of events in repeatable observations. We'll discuss the concept of fluctuations, understanding how observed results may deviate from expected probabilities due to chance variations, and learn...2024-09-2607 minThe Dead Scientists PodcastEnergy Blocks: Understanding the Conservation of Energy with Richard Feynman
In this episode of The Dead Scientists, we explore Richard Feynman's insightful introduction to the fundamental principle of the conservation of energy. Using the simple analogy of a child playing with indestructible blocks, Feynman illustrates how energy remains constant—even when it changes form or seems to disappear. We'll delve into how this concept explains that while energy can transform between gravitational, kinetic, heat, and other forms, the total amount always stays the same.
Join us as we unpack the formulas for calculating gravitational potential energy and kinetic energy, and understand why the conservation of en...2024-09-2610 minThe Dead Scientists PodcastUnveiling the Mysteries: Physics in the 1960s with Richard Feynman
In this episode of The Dead Scientists, we journey back to the early 1960s through the words of Richard Feynman. Explore how physics had made remarkable strides yet faced persistent mysteries. Feynman discusses the concept of amalgamation—the unification of different phenomena under universal principles. We'll trace the evolution from classical physics to quantum mechanics, highlighting breakthroughs like quantum electrodynamics and the uncertainty principle.
Dive into the emerging field of particle physics, where a multitude of subatomic particles had been discovered but their relationships remained unclear. Join us as we unpack the challenges physicists faced an...2024-09-2614 min
The Dead Scientists PodcastAtoms in Motion: Unlocking the Secrets of the Universe with Richard FeynmanIn this enlightening episode, we journey into the microscopic world of atoms through the eyes of legendary physicist Richard Feynman. Drawing from "The Feynman Lectures on Physics," we explore the fundamental concept of atoms in motion and its pivotal role in unraveling the mysteries of our universe.
Discover how the atomic hypothesis—that all things are composed of tiny, constantly moving particles called atoms—is not just a scientific theory but a powerful tool for understanding everything from the heat we feel to the air we breathe. We'll delve into how this simple yet profound idea explains the...2024-09-2611 min
1 ting ad gangen - Naturvidenskab skåret ud i papDen Famøse Richard FeynmanI denne episode dykker vi ned i livet og karrieren hos en af verdens mest fascinerende og karismatiske fysikere, Richard Feynman. Kendt for sin rolle i udviklingen af atombomben under Manhattan-projektet og som central figur i undersøgelsen af Challenger-katastrofen, har Feynman efterladt et uudsletteligt præg på videnskaben. Hans bedrifter og anekdoter kunne fylde flere bøger – og det har de også gjort. Men i dag ser vi nærmere på personen bag geniet og udforsker det liv, som gjorde Richard Feynman til den ekstraordinære mand, han var.Support the showVærter: Villads L...2024-09-051h 01
Motivational SpeechRichard Feynman If you want to master something, teach it - Secrets Revealed!Richard Feynman If you want to master something, teach it - Secrets Revealed!Richard Feynman, Quantum Mechanics, Master something teach it, Motivation speech, Quantum Physics, Learn by teaching, Science education, Educational video, Quantum theory, Physics tutorial, Learning techniques, Personal growth, Inspirational learning, Teaching strategies, Scientific principles, Quantum concepts, Educational philosophy, Academic success, Self-improvement, Mind-expanding ideas, Scientific discovery, Physics education, Online learning, Self-education, Lifelong learning, Study tips, Expert teaching, Thought-provoking ideas, Educational insights, Knowledge acquisition, Quantum phenomena, Academic motivation, Inspiring lectures, Innovative learning methodsAdvertising Inquiries: https://redcircle.com/brandsPrivacy & Opt-Out: https...2024-07-1407 min
The Unadulterated Intellect#78 – Richard Feynman: The Pleasure of Finding Things OutRichard Phillips Feynman (May 11, 1918 – February 15, 1988) was an American theoretical physicist, known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, the physics of the superfluidity of supercooled liquid helium, as well as his work in particle physics for which he proposed the parton model. For his contributions to the development of quantum electrodynamics, Feynman received the Nobel Prize in Physics in 1965 jointly with Julian Schwinger and Shin'ichirō Tomonaga.
Feynman developed a widely used pictorial representation scheme for the mathematical expressions describing the behavior of subatomic particles, which later became known as...2024-05-0248 min
Schwarz auf Weiß - der BücherpodcastSex, Drugs & Quantenfeldtheorie. Richard Feynman, der Rockstar unter den Physikern - Surely you're joking Mr. Feynman!Das hatten wir nicht erwartet: Dieser Physiker ist ein richtiger Hallodri. Richard Feynman hat nicht nur an der Atombombe mitgearbeitet, einen Nobelpreis für die Quantenfeldtheorie erhalten und das brasilianische Bildungssystem revolutioniert. Nein, er war auch ein richtiger Lebemann, was ihm auch nicht peinlich zu sein scheint. Diese Biografie ist ein wahres Feuerwerk an Anekdoten und lustigen Geschichten und genau so ist unsere Folge geworden. ;)Hier bekommt ihr das Buch Sie belieben wohl zu scherzen, Mr. Feynman!: Abenteuer eines neugierigen Physikers---Sponsor diese Woche: Gemsjaeger.ski - nachhaltige Holski--- Du...2024-04-3047 min
Schwarz auf Weiß - der Bücherpodcast[BestOf] Sex, Drugs & Quantenfeldtheorie. Richard Feynman, der Rockstar unter den Physikern - Surely you're joking Mr. Feynman!Das hatten wir nicht erwartet: Dieser Physiker ist ein richtiger Hallodri. Richard Feynman hat nicht nur an der Atombombe mitgearbeitet, einen Nobelpreis für die Quantenfeldtheorie erhalten und das brasilianische Bildungssystem revolutioniert. Nein, er war auch ein richtiger Lebemann, was ihm auch nicht peinlich zu sein scheint. Diese Biografie ist ein wahres Feuerwerk an Anekdoten und lustigen Geschichten und genau so ist unsere Folge geworden. ;)Hier bekommt ihr das Buch Sie belieben wohl zu scherzen, Mr. Feynman!: Abenteuer eines neugierigen Physikers---Sponsor diese Woche: Gemsjaeger.ski - nachhaltige Holski--- Du...2024-04-2347 min
RadiowissenRichard Feynman - Physikgenie mit CharismaEine Mischung aus theoretischem Physiker und Zirkusdirektor: Richard Feynman revolutionierte die Quantenphysik und setzte dabei auch auf den großen Auftritt. (BR 2020)
Autorin: Sophie Stigler
Credits Autor/in dieser Folge: Sophie Stigler Regie: Rainer Schaller Es sprachen: Beate Himmelstoß, Johannes Hitzelberger, Benedikt Schregle Technik: Robin Auld Redaktion: Nicole Ruchlak
Im Interview:Finn Ravndal (Doktorand bei Feynman am Caltech von 1968-74)Harald Fritzsch (Forscher in Gruppe Murray Gell-Mann am Caltech, 1972-76)
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Voice over Work - An Audiobook SamplerRichard Feynman’s Mental Models byPeter Hollins, Chapter by ChapterHear it Here - https://adbl.co/3OsoIY1 How a kid with a broken radio became one of the world's finest minds.Richard Feynman started by fixing broken radios, and ended up being most known for helping invent the atomic bomb. He is the epitome of training your brain to peak performance.Become an alternative thinker that can solve any problem and learn any technique.Richard Feynman's Mental Models is a book about the various tools Feynman used to excel academically, professionally, scientifically, and later as a professor. Learn about this...2023-10-0922 min
Voice over Work - An Audiobook SamplerRichard Feynman’s Mental Models: How to Think, Learn, and Problem-Solve Like a Nobel Prize-Winning Polymath By: Peter HollinsHear it Here - https://adbl.co/3OsoIY1 How a kid with a broken radio became one of the world's finest minds.Richard Feynman started by fixing broken radios, and ended up being most known for helping invent the atomic bomb. He is the epitome of training your brain to peak performance.Become an alternative thinker that can solve any problem and learn any technique.Richard Feynman's Mental Models is a book about the various tools Feynman used to excel academically, professionally, scientifically, and later as a professor. Learn about this...2023-10-0206 min
English Academic Vocabulary Booster4055. 112 Academic Words Reference from "Leonard Susskind: My friend Richard Feynman | TED Talk"This podcast is a commentary and does not contain any copyrighted material of the reference source.
We strongly recommend accessing/buying the reference source at the same time.
■Reference Source
https://www.ted.com/talks/leonard_susskind_my_friend_richard_feynman
■Post on this topic (You can get FREE learning materials!)
https://englist.me/112-academic-words-reference-from-leonard-susskind-my-friend-richard-feynman-ted-talk/
■Youtube Video
https://youtu.be/ngUHtiIFABU (All Words)
https://youtu.be/bDHZucNsIjU (Advanced Words)
https://youtu.be/b323fG3A0xI (Quick Look)
...2023-08-231h 40
The Unadulterated Intellect#22 – Richard Feynman: The Famous "Fun to Imagine" InterviewRichard Phillips Feynman (May 11, 1918 – February 15, 1988) was an American theoretical physicist, known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, the physics of the superfluidity of supercooled liquid helium, as well as his work in particle physics for which he proposed the parton model. For his contributions to the development of quantum electrodynamics, Feynman received the Nobel Prize in Physics in 1965 jointly with Julian Schwinger and Shin'ichirō Tomonaga.
Feynman developed a widely used pictorial representation scheme for the mathematical expressions describing the behavior of subatomic particles, which later became known as...2023-07-131h 05
Unwind With a Free AudiobookA Rare Recording of Physicist Richard Feynman Explaining Scientific Method Audiobook by Richard FeynmanListen to this audiobook in full for free onhttps://hotaudiobook.com/freeID: 695546
Title: A Rare Recording of Physicist Richard Feynman Explaining Scientific Method
Author: Richard Feynman
Narrator: Richard Feynman
Format: Unabridged
Length: 00:10:56
Language: English
Release date: 06-15-23
Publisher: Listen & Live Audio
Genres: History, World
Summary:
Richard Phillips Feynman(May 11, 1918 - February 15, 1988) was an Americantheoretical physicist, known for his work in thepath integral formulationofquantum mechanics, the theory ofquantum electrodynamics, and the physics of thesuperfluidityof supercooledliquid helium. In 1965, Feynman received theNobel Prize in Physicsjointly withJulian SchwingerandShin'ichir Tomonaga.
Contact: info@hotaudiobook.com2023-06-1510 min
Get Best Full Audiobooks in History, WorldA Rare Recording of Physicist Richard Feynman Explaining Scientific Method by Richard FeynmanPlease visit https://thebookvoice.com/podcasts/1/audiobook/695546 to listen full audiobooks. Title: A Rare Recording of Physicist Richard Feynman Explaining Scientific Method Author: Richard Feynman Narrator: Richard Feynman Format: Unabridged Audiobook Length: 0 hours 10 minutes Release date: June 15, 2023 Genres: World Publisher's Summary: Richard Phillips Feynman (May 11, 1918 - February 15, 1988) was an American theoretical physicist, known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, and the physics of the superfluidity of supercooled liquid helium. In 1965, Feynman received the Nobel Prize in Physics jointly with Julian Schwinger and Shin'ichirō Tomonaga.2023-06-1501 min
Get Best Full Audiobooks in History, WorldA Rare Recording of Physicist Richard Feynman Explaining Scientific Method by Richard FeynmanPlease visithttps://thebookvoice.com/podcasts/1/audiobook/695546to listen full audiobooks.
Title: A Rare Recording of Physicist Richard Feynman Explaining Scientific Method
Author: Richard Feynman
Narrator: Richard Feynman
Format: Unabridged Audiobook
Length: 0 hours 10 minutes
Release date: June 15, 2023
Genres: World
Publisher's Summary:
Richard Phillips Feynman (May 11, 1918 - February 15, 1988) was an American theoretical physicist, known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, and the physics of the superfluidity of supercooled liquid helium. In 1965, Feynman received the Nobel Prize in Physics jointly with Julian Schwinger and Shin'ichirō Tomonaga.2023-06-1510 min
Baked Potatoes PodcastEp. 14 - Richard Feynman / Names are USELESS!!!!https://www.youtube.com/watch?v=GNhlNSLQAFE
***WATCH THAT VIDEO, THEN LISTEN IN***
The Guise are FASCINATED with Richard Feynman, Nobel Prize winning theoretical physicist known for his Theory of Quantum Mechanics, his particle physics work, and how he screwed with the FBI until they left him alone!!! Plus, smoking in airports, Charlie gets uncomfortable with politics talk AND screwed his microphone input up again but SWEARS this is the last time. We hope.
Facebook: https://www.facebook.com/profile.php?id=100088728415314&mibextid=LQQJ4d
Instagram: https://instagram.com/u...2023-05-091h 37Baked Potatoes PodcastEp. 14 - Richard Feynman / Names are USELESS!!!!https://www.youtube.com/watch?v=GNhlNSLQAFE
***WATCH THAT VIDEO, THEN LISTEN IN***
The Guise are FASCINATED with Richard Feynman, Nobel Prize winning theoretical physicist known for his Theory of Quantum Mechanics, his particle physics work, and how he screwed with the FBI until they left him alone!!! Plus, smoking in airports, Charlie gets uncomfortable with politics talk AND screwed his microphone input up again but SWEARS this is the last time. We hope.
Facebook: https://www.facebook.com/profile.php?id=100088728415314&mibextid=LQQJ4d
Instagram: https://instagram.com/u...2023-05-091h 37
BRX Pro TipsBRX Pro Tip: Teach Someone Like Richard Feynman DidBRX Pro Tip: Teach Someone Like Richard Feynman Did Stone Payton: [00:00:00] And we are back with Business RadioX Pro Tips. Stone Payton, Lee Kantor here with you. Lee, you have suggested that we teach someone like Richard Feynman did. Say more about that. Lee Kantor: [00:00:15] Yeah, Richard Feynman is a scientist who's very […] The post BRX Pro Tip: Teach Someone Like Richard Feynman Did appeared first on Business RadioX ®.2023-03-0802 min
Archivradio – Geschichte im OriginalRichard Feynman findet die Erklärung für die Challenger-Katastrophe | 11.2.1986
Dichtungsring im Wasserglas veranschaulicht das Problem
In weniger als einer Minute führt Richard Feynman vor laufenden Kameras ein kleines physikalischen Experiment vor: Vor ihm steht ein Glas eiskaltes Wasser, in das er einen der typischen elastischen Dichtungsringe tunkt. Ergebnis: Der Dichtungsring wird bei Kälte spröde. Es waren die Dichtungsring, die versagten.
Übersetzung der Erklärung von Richard Feynman
"Ich habe dieses Ding aus der Dichtung genommen, und in Eiswasser getaucht. Und stellte fest, wenn man das Dichtungsmaterial erst ein bisschen zusammendrückt und dann den Druck wegnimmt, dehnt es sich nicht wieder aus, sonder...2023-02-1101 min
Finding The Iron in YouBagaimana berpikir logis ala Richard FeynmanBerpikir secara logis dengan menerapkan prinsip prinsip ilmu pengetahuan akan sangat membantu kita dalam menghadapi masalah sehari hari. Prof Richard Feynman (pemenang nobel fisika dan penemu metode feynman) adalah salah satu orang yang bisa kita ambil prinsip dan cara cara berpikir nya.
Dengan berpikir menggunakan prinsip prinsip logis dan ilmu pengetahuan, kita bisa menguraikan masalah dengan lebih jelas.2023-01-1735 min
Physics bytes !S1E14 - Rose & Basile : Richard FeynmanTwo new students talk to us about one of the mythical figures of the 20th century : the inimitable Richard Feynman. They give us a very brief overview of his life, why he is famous, and Basile resists the urge to try and explain to us without any visual aids what Feynman Diagrams are!
Listen and Enjoy! 2022-05-2212 min
Space TalkEp. 63: Historical Figures - Richard FeynmanLet’s chat about Richard Feynman in this week’s episode of historical figures!!!
Noble Prize Physics 1965:
https://www.nobelprize.org/prizes/physics/1965/summary/
https://www.nobelprize.org/prizes/physics/1965/feynman/lecture/
Quotes:
https://graciousquotes.com/richard-feynman/
IQ stuff:
https://www.vox.com/the-big-idea/2017/10/23/16516516/iq-tests-high-low-achievement-sat-anxiety-determinism
CalTech interview:
http://calteches.library.caltech.edu/43/2/Nobel.htm
“Fun to Imagine” interview with BBC:
https://www.youtube.com/watch?v=P1ww1IXRfTA&ab_channel=ChristopherSykes
Bongos:
https://www.youtube.com/watch?v=aIoww5DdXGM&ab_channel=FreeScienceLectures
First public lecture on Nanotechnology “There’s plenty of room at the bottom”:
https://www.openculture.com/2013/04/ri...2022-04-2248 min
The Merkol Podcast - Tamil PodcastEP 13: Richard Feynman Famous Quote “The first principle is that you must not fool yourself, and you are the easiest person to fool"In this episode, I explore the Richard Feynman Famous Quote “The first principle is that you must not fool yourself, and you are the easiest person to fool". First, I talk about Richard Feynman and explain his greatness in learning and understanding life. Then move on to explain the illusion of happiness that people always believe in. Then I give an example of a scene from the movie 'Soul' to further explain my point. Then I conclude by leaving with you a trick to happiness. Hope you enjoy this episode. If you do not agree with what I have mentioned or...2021-10-2011 min
Historia de la ciencia y de sus protagonistasRichard Feynman (1918-1988): genio y figura de la FísicaEl 6 de marzo de 2019, la Fundación Ramón Areces organizó en colaboración con la Real Academia de Ciencias Exactas, Físicas y Naturales una conferencia sobre 'Richard Feynman (1918-1988): Genio y figura de la Física'. El encargado de pronunciarla fue José Bernabéu, catedrático Emérito de la Universidad de Valencia y Académico Correspondiente Nacional de la Real Academia de Ciencias Exactas, Físicas y Naturales. Aquí nos explica la principal aportación de Feynman a la ciencia.2021-09-101h 06
Uma Vela no EscuroUma Vela no Escuro - Episódio 7 - Richard FeynmanEpisódio 7 - Richard Feynman
Conheça um pouco mais sobre a vida do físico americano Richard Feynman, famoso pelo desenvolvimento da mecânica quântica.
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Apoie o projeto no Catarse: www.catarse.me/umavelanoescuro-pod
Este podcast é um oferecimen...2021-08-0204 min
GROUND SOUNDS PodcastThe character of physical Law by Richard Feynman - Full AUDIOBOOKCollecting legendary lectures from freewheeling scientific genius Richard P. Feynman, The Character of Physical Law is the perfect example of Feynman's gift for making complex subjects accessible and entertaining.
Here Richard Feynman gives his own unique take on the puzzles and problems that lie at the heart of physics, from Newton's Law of Gravitation to mathematics as the supreme language of nature, from the mind-boggling question of whether time can go backwards to the exciting search for new scientific laws.
Using simple everyday illustrations to bring out the essence of a complicated principle - for...2021-06-042h 30
De brujería a cienciaRichard Feynman: Contando átomos.Richard Feynman, el genio por excelencia, conocido por las "Feynman Lectures on Physics", ganador del premio nobel por reformular la mecánica cuántica y sus contribuciones a la física de partículas, participante en la creación de la bomba atómica en el proyecto Manhattan, investigador de la explosión del Challenger en 1986.
Richard Feynman ha sido de los personajes mas emblemáticos en la física por sus contribuciones a la investigación y docencia, ven a escuchar acerca de su vida y de su trabajo en este capítulo. 2021-03-3113 min
Knowledge = PowerGenius: The Life and Science of Richard FeynmanNew York Times Bestseller: This life story of the quirky physicist is “a thorough and masterful portrait of one of the great minds of the century” (The New York Review of Books). Raised in Depression-era Rockaway Beach, physicist Richard Feynman was irreverent, eccentric, and childishly enthusiastic—a new kind of scientist in a field that was in its infancy. His quick mastery of quantum mechanics earned him a place at Los Alamos working on the Manhattan Project under J. Robert Oppenheimer, where the giddy young man held his own among the nation’s greatest minds. There, Feynman turned theory into practice, cul...2021-03-298h 06
Into the Impossible With Brian KeatingPart 2: John Preskill – Quantum Computing, Artificial Intelligence, and Encountering Richard Feynman (#111)Learn about the exciting promise of quantum computing and how it may solve problems in fundamental physics.Join my mailing list to get slides from this conversation: briankeating.com.We went deep…discussing Artificial Intelligence, the simulation hypothesis, lessons from Richard Feynman and more! You don’t want to miss his answers to my patented Thrilling Three final questions!John Preskill is the Richard P. Feynman Professor of Theoretical Physics at the California Institute of Technology, where he is also the Director of the Institute for Quantum Information and Matter. He is one of the...2021-01-191h 17
Into the Impossible With Brian KeatingJohn Preskill – Part 1 – Quantum Computing, Artificial Intelligence, and Encountering Richard Feynman (#111)Part 1 of 2Learn about the exciting promise of quantum computing and how it may solve problems in fundamental physics.Join my mailing list to get slides from this conversation: briankeating.com.We went deep…discussing Artificial Intelligence, the simulation hypothesis, lessons from Richard Feynman and more! You don’t want to miss his answers to my patented Thrilling Three final questions!John Preskill is the Richard P. Feynman Professor of Theoretical Physics at the California Institute of Technology, where he is also the Director of the Institute for Quantum Information and Matt...2021-01-1859 min
THE QUEENS NEW YORKERTHE LEGACY OF QUEENS EPISODE 6: RICHARD FEYNMANON THIS EDITION IT'S A LOOK AT THE LEGACY OF A THE MAN WHO DEVELOPED QUANTUM MECHANICS AND PHYSICS: https://en.wikipedia.org/wiki/Richard_Feynman
PICTURE BY: By The Nobel Foundation - http://www.nobelprize.org/nobel_prizes/physics/laureates/1965/feynman-bio.html, https://en.wikipedia.org/w/index.php?curid=34664654
IF YOU WOULD LIKE TO MAKE A COMMITTED MONTHLY DONATION FOR FUTURE EPISODES YOU CAN DONATE HERE: https://anchor.fm/thequeensnewyorker/support2020-11-2958 min
MrafCommand PodcastEPS06 - Teknik Belajar dari RIchard Feynman ! tapi siapa sih Richard Feynman itu ?Hi.
Seperti itulah chat ku kepada crush yang baru ku kenal dalam satu hari.WKWKWK apaan sih kagak denggg, jauh melenceng dari topik lagi.
So yeahh halo selamat datang kembali di #PodcastWithMraf, kali ini gua ngobrol sendiri, ga sama siapa-siapa. Jadi sesi kali ini gua ngomongin tentang teknik belajar yang paling terkenall yakni 'Feynman Technique', dan berkenalan lebih jauh mengenai siapa itu Richard Feynman. Si uncle kece yang punya banyak terobosan dan teknik belajarnya majur sangat :)). Penasaran gimanss tekniknya ? atau siapa sih dia? langsung gass dengerin ajaa :)
2020-10-1600 min
Kair CutDr. Richard Feynman: Story-telling via Physics & PhilosophyIn the #10 episode of Kair Cut', we have a story about a scientist, a physicist, a philosopher but most importantly a teacher Dr. Richard Feynman. This episode is not about him winning a nobel prize or about his work in theoretical physics, this story is more about what Dr. Feynman stood for. The world know Dr. Feynman as a physicist but what many of us don't know is that he was and is the greatest teacher of all time. He taught the world to ask #why. 2020-08-1511 min
Il Trilobite leggeIl Trilobite legge #82 - Richard Feynman, l’”effetto Matteo” e l’annosa questione delle citazioni#82 – 17 luglio 2020Come non disse Feynman. L’articolo di Peppe Liberti pubblicato su Il Tascabile.https://www.iltascabile.com/scienze/richard-feynman-citazioni/Il Trilobite legge è un canale Telegram in cui, 3 volte a settimana, sono pubblicate brevi note vocali con consigli di lettura on e offline su scienza e comunicazione.Per ricevere direttamente le notifiche sul tuo account Telegram, iscriviti qui -> https://t.me/s/iltrilobitelegge.2020-07-2001 min
Feynmans lawBuchempfehlungen für Physikstudierende-und InteressierteHier stelle ich Physikbücher für Abi, Uni und Allgemeinheit vor
Meteorologie: https://www.amazon.de/Meteorologie-Hans-Häckel-ebook/dp/B01M2YSJKV/ref=sr_1_1?__mk_de_DE=%C3%85M%C3%85%C5%BD%C3%95%C3%91&dchild=1&keywords=h%C3%A4ckel+meteorologie&qid=1586446274&sr=8-1
Daniel Jung Mathe Abi: https://shop.letsrockmathe.de/collections/abitur/products/mathe-abitur-lernhefte-set-aufgabensammlung
Hochschulmathematik: https://www.amazon.de/Hoch-Schulmathematik-Ein-Sprungbrett-Gymnasium-ebook/dp/B07MGHTY5K/ref=sr_1_1?__mk_de_DE=%C3%85M%C3%85%C5%BD%C3%95%C3%91&dchild=1&keywords=hochschulmathematik&qid=1586446374&sr=8-1
...2020-04-0912 min
Disciplinas AlternativasDIS-001-VIII-25-La experiencia extra-corporal de Richard Feynman año 1918Las experiencias fuera del cuerpo (OBE) implican la sensación vívida de moverse fuera de su cuerpo físico y, a veces, viajar mucho más allá.
Feynman también se hizo conocido a través de sus libros semi-autobiográficos titulados:
¡ Seguro que estás bromeando, Sr. Feynman !
¿ Y qué te importa lo que piensan otras personas?
Fue en el primer libro mencionado, donde Richard Feynman, declaró su aptitud para los sueños lúcidos, y lo transformó en su éxito de ventas nacional.
Allí dedicó un capítulo entero a sus experimentos con lo...2019-09-0309 min
Disciplinas AlternativasDIS-001-VIII-25-La experiencia extra-corporal de Richard Feynman año 1918Las experiencias fuera del cuerpo (OBE) implican la sensación vívida de moverse fuera de su cuerpo físico y, a veces, viajar mucho más allá.
Feynman también se hizo conocido a través de sus libros semi-autobiográficos titulados:
¡ Seguro que estás bromeando, Sr. Feynman !
¿ Y qué te importa lo que piensan otras personas?
Fue en el primer libro mencionado, donde Richard Feynman, declaró su aptitud para los sueños lúcidos, y lo transformó en su éxito de ventas nacional.
Allí dedicó un capí...2019-09-0309 min
The Soul of Enterprise: Business in the Knowledge EconomyMemorable Mentors: Richard FeynmanAccording to Wikipedia, Richard Feynman [May 11, 1918 – February 15, 1988] was an American theoretical physicist, known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, and the physics of the superfluidity of supercooled liquid helium, as well as in particle physics for which he proposed the parton model. For his contributions to the development of quantum electrodynamics, Feynman, jointly with Julian Schwinger and Shin'ichiro Tomonaga, received the Nobel Prize in Physics in 1965. In a 1999 poll of 130 leading physicists worldwide by the British journal Physics World he was ranked as one of the ten greatest physicists of al...2019-02-0855 min
Deeper Meaning Time - A Mindful Motivational PodcastThinker Series Episode 11 Who Is Richard Feynman?This episode of the Thinker Series introduces you to one of my biggest idols in life, Richard Feynman. A theoretical physicist and one of the biggest contributors in particle physics research and quantum electrodynamics. He has an incredible mind and listening to his lectures and interviews are easy. He is easy to understand and his knowledge is so vast on topics like life and his ability to understand the inner workings of the things that surround us and we interact with everyday. To learn under him would have been incredible. Unfortunately he is no longer with us but thankfully you...2018-10-2314 min
Chaos Computer Club - archive feed (high quality)Richard Feynman: Dick. (emf2018)Nobel-prize winning Professor Richard Feynman is known not only for his dramatic contributions to theoretical physics, his teaching of physics and his testimony on the Challenger disaster, but also for his unconventional life. Noted for picking locks, questioning authority, and unapologetic playing of bongos, the physics superstar also dabbled in life drawing and testified to the acceptability of sexwork in the community.
In this talk, I'll mix comedy, physics and biographical details to explain why Feynman is famous (in a way suitable for people who haven't studied physics past school) and also why we should beware of buying into his...2018-09-0220 min
Science ShamblesAll Genius. All Buffoon - 100 Years of Richard Feynman - A DocumentaryIn 2018 the Nobel Prize winning physicist Richard Feynman would've turned 100 years old. But Richard Feynman was so much more than just one of the greatest physicists, the greatest scientists, of the 20th century. He was a beautiful writer, a man of boundless curiosity, a bongo player, a clown. Fellow physicist Freeman Dyson once said that Feynman was "Half genius, half buffoon". He would later revise those words, replacing them with "All genius, all buffoon." This documentary, presented by Robin Ince, features new and exclusive interviews with those that knew him and have been inspired by him including Professor Brian Cox...2018-06-2958 min
Açık Bilim PodcastMUHABBET TEORİSİ #114: FİZİĞİN USTA SİHİRBAZI RICHARD FEYNMANMuhabbet Teorisinin bu bölümünde doğumunun 100. yıl dönümü sebebiyle Richard Feynman'dan bahsettik.
Keyifli Dinlemeler2018-05-171h 10
La Brújula de la CienciaLa Brújula de la Ciencia s07e37: Richard Feynman y la estructura interna de los protonesSe acaban de cumplir 100 años del nacimiento de Richard Feynman, uno de los físicos teóricos más importantes del siglo XX, que se caracterizó por buscar siempre nuevas maneras de explicar cosas que ya creíamos entender. En esa búsqueda encontró una formulación alternativa de la mecánica cuántica, describió mediante dibujos las interacciones entre partículas y ayudó a entender cómo se distribuyen los quarks y gluones en el interior del protón. Hoy hacemos un breve repaso a su figura y os contamos la historia de este último descubrimiento: la estructura interna de los pr...2018-05-1206 minScience ShamblesAll Genius. All Buffoon - 100 Years of Richard Feynman TrailerOn May 11th 2018 the Nobel Prize winning physicist Richard Feynman would've turned 100 years old. But Richard Feynman was so much more than just one of the greatest physicists, the greatest scientists, of the 20th century. He was a beautiful writer, a man of boundless curiosity, a bongo player, a clown. Fellow physicist Freeman Dyson once said that Feynman was "Half genius, half buffoon". He would later revise those words, replacing them with "All genius, all buffoon." So we at The Cosmic Shambles Network have put together an audio documentary featuring interviews with fellow physicists and Feynman admirers to mark this...2018-05-1103 min
The Stephen Wolfram PodcastRemembering Richard FeynmanStephen Wolfram remembers his time spent with Richard Feynman on what would have been his 100th birthday. Based on a chapter in his book 'Idea Makers,' Stephen recalls personal interactions, anecdotes and correspondence with Feynman. You can read Stephen's blog post about it here: https://wolfr.am/ux6o86m52018-05-1024 min
Great LivesTej Lalvani on Richard FeynmanRichard Feynman was a physicist who helped design the atomic bomb and won the Nobel Prize. He is the great life choice of businessman Tej Lalvani CEO of his family business Vitabiotics and the newest Dragon on the BBC show Dragon's Den. Feynman was also regarded as something of an eccentric and a free spirit who had a passion for playing the bongos. Helping to make the case for this great life Tej is joined by the expert witness David Berman, Professor of Theoretical Physics at Queen Mary University of London. ...2018-05-0129 min
Listen to the Best Full Audiobooks in Non-Fiction, Astronomy & PhysicsThe Quantum Labyrinth: How Richard Feynman and John Wheeler Revolutionized Time and Reality by Paul HalpernPlease visit https://thebookvoice.com/podcasts/1/audiobook/306658 to listen full audiobooks. Title: The Quantum Labyrinth: How Richard Feynman and John Wheeler Revolutionized Time and Reality Author: Paul Halpern Narrator: Brian Troxell Format: Unabridged Audiobook Length: 10 hours 45 minutes Release date: October 17, 2017 Ratings: Ratings of Book: 4.09 of Total 11 Ratings of Narrator: 5 of Total 2 Genres: Astronomy & Physics Publisher's Summary: The story of the unlikely friendship between the two physicists who fundamentally recast the notion of time and history In 1939, Richard Feynman, a brilliant graduate of MIT, arrived in John Wheeler's Princeton office to report for duty as his teaching assistant. A lifelong friendship...2017-10-1703 min
Books of Titans Podcast#10: Surely You’re Joking, Mr. Feynman! by Richard FeynmanIn this episode, Jason Staples and Erik Rostad discuss book 10 of the 2017 Books of Titans Reading list – Surely You’re Joking, Mr. Feynman! by Richard Feynman. Show Notes Suggested by Petter Attila on page 70 of Tools of Titans and Noah Kagan on page 327. Author: Richard P. FeynmanThe post #10: Surely You’re Joking, Mr. Feynman! by Richard Feynman appeared first on Books of Titans. This is a public episode. If you'd like to discuss this with other subscribers or get access to bonus episodes, visit www.booksoftitans.com/subscribe2017-07-211h 06
Public Access AmericaHanging Around With Richard FeynmanRichard Phillips Feynman May 11, 1918 – February 15, 1988) was an American theoretical physicist known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, and the physics of the superfluidity of supercooled liquid helium, as well as in particle physics for which he proposed the parton model. For his contributions to the development of quantum electrodynamics, Feynman, jointly with Julian Schwinger and Shin'ichirō Tomonaga, received the Nobel Prize in Physics in 1965.
Feynman developed a widely used pictorial representation scheme for the mathematical expressions governing the behavior of subatomic particles, which later became known as Feynman diagrams. During his...2017-06-051h 11
Elemental Podcast | Finanzas Personales, Productividad y Estilo de Vida#007 - Seis Lecciones Básicas de Richard FeynmanResumen del Libro: Este libro es una serie de 6 lecciones básicas que sirven de introducción a la mecánica cuántica. Con un estilo muy pedagógico, el autor nos introduce a este apasionante mundo de la física tocando temas como los átomos, la energía, la gravedad y finalmente las leyes de la mecánica cuántica.
Pedro García-Huidobro (@pedroghg) y Santiago Allamand (@stgoallamand) discuten sobre distintos libros todas las semanas. El libro de esta semana es Six Easy Pieces: Essentials of Physics Explained by Its Most Brilliant Teacher de Richard Feynman (Seis Lecciones Básicas: Elemen...2017-05-1746 min
Low Tide ProductionsRichard Feynman – The Character of Physical Law (audio lectures)I’ve been listening to this lecture series on physics by Richard Feynman lately. The audio quality on the videos is a bit low, so I decided to clean it up a bit and make the entire lecture series available in easy podcast-able audio only form. There are a few diagrams that you will be missing from the videos, but most of the points are easy to understand even without the visual. If you have a long commute or enjoy learning about physics, perhaps you will enjoy them as much as I have:
(Note: there are also some...2016-09-1300 min
La Brújula de la CienciaLa Brújula de la Ciencia s02e17: Richard Feynman y la interpretación de la física cuánticaEn este capítulo recordamos la figura del físico teórico Richard Feynman en el 25 aniversario de su fallecimiento. Os contamos su particular relación con el conocimiento, que Feynman veía lleno de belleza y diversión, y aprovechamos para explicaros la integral de camino de Feynman, una formulación de la física cuántica que él inventó. También os recomendamos alguno de sus libros, por si queréis aprender más sobre este gigante de la física del siglo XX.
Si queréis saber más sobre Feynman podéis escuchar también los capítulos s04e30 y...2015-04-1710 min
Gårdagens värld idag igenGårdagens värld idag igen avsnitt 16: musikalisk identitet, Modesty Blaise, Richard Feynman som kultfigur
Den här gången bjuder vi på ett avslappnat pratavsnitt. Vi släpper på formen och avslöjar mer om oss själva i associationer kring musik och identitet. Metal är fantasy, synth är science fiction — eller?
Modesty Blaise: seriehjälten vars världsvana och sociala kontaktnät som var den tonåriga Åkas önskedröm. Vad är det med Modesty som gör att hon står sig? Vi tittar tillbaka, så här mer än 50 år efter det första äventyret.
En av giganterna i de mer nördiga hörnen av kulturen är Richard F...2015-03-2400 min
Podcast Science209 - Richard FeynmanSoutenez nous sur Patreon.com/PodcastScience // Retrouvez nous sur PodcastScience.fm // Twitter: Twitter.com/PodcastScience // Facebook: Facebook.com/PodcastScience //https://www.podcastscience.fm/emission/2015/03/16/podcast-science-209-feynman/ 208 épisodes de PodcastScience et on a toujours pas parlé de Richard Feynman, enfin je veux dire pas fait un vrai dossier, un vrai dossier de podcastscience ! Ce soir, on rattrape le retard, Johan nous a préparé un beau dossier sur le sujet. Soutenez nous sur Patreon Hébergé par Acast. Visitez acast.com/privacy pour plus d'informations.2015-03-1659 min
Introducción a la CienciaLa incertidumbre de la ciencia (¿Qué significa todo eso?) Richard FeynmanRichard Phillips Feynman ( 1918 - 1988) fue un físico estadounidense, considerado uno de los más importantes de su país en el siglo XX. Su trabajo en electrodinámica cuántica le valió el Premio Nobel de Física en 1965, compartido con Julian Schwinger y Sin-Ichiro Tomonaga. En ese trabajo desarrolló un método para estudiar las interacciones y propiedades de las partículas subatómicas utilizando los denominados diagramas de Feynman. En su juventud participó en el desarrollo de la bomba atómica en el proyecto Manhattan. Entre sus múltiples contribuciones a la física destacan también sus trabajos exp...2014-11-191h 03Introducción a la CienciaLa incertidumbre de la ciencia (¿Qué significa todo eso?) Richard FeynmanRichard Phillips Feynman ( 1918 - 1988) fue un físico estadounidense, considerado uno de los más importantes de su país en el siglo XX. Su trabajo en electrodinámica cuántica le valió el Premio Nobel de Física en 1965, compartido con Julian Schwinger y Sin-Ichiro Tomonaga. En ese trabajo desarrolló un método para estudiar las interacciones y propiedades de las partículas subatómicas utilizando los denominados diagramas de Feynman. En su juventud participó en el desarrollo de la bomba atómica en el proyecto Manhattan. Entre sus múltiples contribuciones a la física destacan también sus trabajos exp...2014-11-191h 03
OverdueEp 077 - Surely You're Joking, Mr. Feynman! by Richard FeynmanSafecracker, prankster, bongo drummer, painter, teacher. Richard Feynman was many things in addition to being a Nobel Prize-winning physicist, and he seemed to enjoy the incongruities of his varied interests.His collection of anecdotes Surely You're Joking, Mr. Feynman! chronicles some of these pursuits, while also shedding light on Feynman's years at Los Alamos working on the atomic bomb in the company of J. Robert Oppenheimer, Niels Bohr and others.Join us this week to find out how a man goes from illuminating the behavior of subatomic particles to spending his free time in California ba...2014-09-0853 min
Transform Your Downtime With the Magic of Full AudiobookGenius: The Life and Science of Richard Feynman Audiobook by James GleickListen to this audiobook in full for free onhttps://hotaudiobook.com/freeID: 90752
Title: Genius: The Life and Science of Richard Feynman
Author: James Gleick
Narrator: Dick Estell
Format: Unabridged
Length: 20:06:00
Language: English
Release date: 02-01-11
Publisher: Random House (Audio)
Genres: Biography & Memoir, Science & Technology, Astronomy & Physics, General
Summary:
To his colleagues, Richard Feynman was not so much a genius as he was a full-blown magician: someone who “does things that nobody else could do and that seem completely unexpected.” The path he cleared for twentieth-century physics led from the making of the atomic bomb to a Nobel Prize-winning theory of qu...2011-02-018h 06