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If You Grasp This, You Grasp It All! The Standard Model of Particle Physics
Everything we perceive is made up of countless unseen elements. Take this plant, for instance.
1)Unveiling the Hierarchy of Matter
Dive into the intricate structure of visible matter, tracing the path from plant tissues to molecules, from atoms to the fundamental particles that compose everything around us.
2)The Evolution of Atomic Theory
Discover the journey from classical atomic models to the cutting-edge insights of quantum mechanics. Learn how electrons behave within the bounds of the uncertainty principle and uncover the surprising scale of atomic nuclei.
3)Decoding Wave-Particle Duality
Delve into the dual nature of electrons, which exhibit behaviors of both particles and waves. Understand how this fundamental principle shapes our understanding of particle physics.
4)The Four Fundamental Forces
Explore the basic forces that govern the universe-gravity, electromagnetism, and the strong and weak nuclear forces-and meet the carrier particles that mediate these interactions.
5)Quantum Neutrino Oscillations
Witness the fascinating phenomenon of neutrino oscillations, where these elusive particles transform between different types as they travel through space.
6)The Foundations of the Standard Model
Gain insights into the Standard Model of particle physics, learning about fermions, bosons, quarks, leptons, and the Higgs boson-key elements that form the building blocks of our universe.
7)The Unsolved Mysteries of Physics
Examine the unanswered questions that challenge the Standard Model, including the absence of a unified theory of gravity and quantum mechanics, and intriguing puzzles like the generation problem.
8)The Limits and Power of Scientific Discovery
Reflect on the ever-evolving nature of science, recognizing that while gaps in knowledge remain, ongoing research and exploration continually push the boundaries of understanding.
👥 Imprint:
Researcher and Writer: Ali
Developed by: Ali
Organized and Presented: Ali
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  • @joedirty6543
    @joedirty6543 วันที่ผ่านมา

    It’s all relative. Everything down to position and most basic models of reality is relative. Even time!

    • @axekitty
      @axekitty 23 ชั่วโมงที่ผ่านมา

      You're absolutely right-relativity is a cornerstone of our understanding of reality. The theory of relativity, particularly Einstein's work, demonstrated that concepts like time, space, and even mass depend on the observer's frame of reference. Time dilation, for example, shows that time can pass differently for observers depending on their relative velocities or gravitational fields. This relativity extends beyond physics into philosophy, where perspectives and interpretations often shape what we consider "real." In a sense, almost everything we experience and measure is interconnected and context-dependent.

    • @joedirty6543
      @joedirty6543 23 ชั่วโมงที่ผ่านมา

      @@axekitty it’s amazing ! Truly. One thing that I cannot conceive is what occurs after we die. Our very existence is so fragile and short and near impossible. I believe plenty search quantum physics to explore mystery and invite wonder that faded when they left childhood. When we embrace how much we don’t know, we invite hope. Exploration of truth and reality is a grappling with mortality! This is partly what I believe.

    • @axekitty
      @axekitty 20 ชั่วโมงที่ผ่านมา

      @@joedirty6543 Beautifully said. The mystery of our existence and what lies beyond is something that has fascinated humanity for centuries. Quantum physics, philosophy, and even art all seem to converge in this shared quest for understanding. Embracing the unknown does bring a sense of wonder and humility, reminding us how precious and fleeting life is. Grappling with mortality, as you put it, also pushes us to find meaning in the present. Perhaps, in exploring these mysteries, we're not just searching for answers but also reconnecting with that childlike curiosity and awe.

  • @vinicius548
    @vinicius548 วันที่ผ่านมา

    Good video, keep it up!

    • @axekitty
      @axekitty 23 ชั่วโมงที่ผ่านมา

      Thanks a lot!

  • @ExistenceUniversity
    @ExistenceUniversity วันที่ผ่านมา

    2:10 That's false actually, the electron is everywhere the spots are. We color code them to add information for ourselves of where upon measurement WE tend to find it, but before the measurement it *is* in all those places.

    • @axekitty
      @axekitty วันที่ผ่านมา

      Exactly! That's what I mean-before we measure, we can't pinpoint the electron's exact location. It's described by a probability distribution, and the spots represent where we are most likely to find it upon measurement.

    • @joedirty6543
      @joedirty6543 23 ชั่วโมงที่ผ่านมา

      No, the electron is not everywhere. It is in superposition of being both everywhere and nowhere. It is NOT in all those places. It is something else, superposition.

    • @axekitty
      @axekitty 23 ชั่วโมงที่ผ่านมา

      @@joedirty6543You're correct that the concept of superposition is crucial here. The electron isn't literally 'everywhere' in a classical sense; instead, its position is described by a wavefunction, representing a probability distribution of where it could be upon measurement. Before measurement, the electron exists in a state of superposition, meaning it doesn't have a single, defined location. The 'spots' are simply visualizations of the most probable locations where we might find the electron if we measure it.

  • @ExistenceUniversity
    @ExistenceUniversity วันที่ผ่านมา

    0:45 But wait, no! You split the atom! You get energy!

    • @axekitty
      @axekitty วันที่ผ่านมา

      Not quite! Splitting an atom (nuclear fission) does release energy, but that's a specific process involving heavy atoms like uranium or plutonium, where the nucleus splits into smaller nuclei. For most atoms, 'splitting' them typically just means breaking them into smaller particles (like electrons and nuclei), which doesn't release energy in the same way as nuclear fission.

    • @ExistenceUniversity
      @ExistenceUniversity วันที่ผ่านมา

      @axekitty yes but also no! Einstein proved my argument. M/c^2 = E Atoms convert down to energy

  • @Aidan-e9p
    @Aidan-e9p วันที่ผ่านมา

    Brilliant. Stay curious

    • @axekitty
      @axekitty วันที่ผ่านมา

      Thanks a lot!

  • @ujjwalchoudhary-nh5ii
    @ujjwalchoudhary-nh5ii 2 วันที่ผ่านมา

    really good explanation

    • @axekitty
      @axekitty 2 วันที่ผ่านมา

      Thank you!

  • @НиколКунова
    @НиколКунова 3 วันที่ผ่านมา

    Great video! I learned something new today! Keep up the good work👍🏽😄

    • @axekitty
      @axekitty 2 วันที่ผ่านมา

      Glad to hear it!