ALL OF PHYSICS explained in 14 minutes

dude just casually explained a whole university course

finally a "everything in X topic explained in Y minutes" channel with actual effort put into the video

3:44 “your feelings are invalid in the face of physics”😂

I love how you managed to entangle various themes of Physics into one video with seamless transitions so to emphasize that all of these topics do go hand in hand.

Unironically one of the best explanations for entropy

Might graduate college with this one 😢

Alright, got my degree in physics in astronomy, and I've taught physics for over 5 years.

I cannot understate how brief, how accurate, and how hilariously you convey all the "fundamentals" of major fields of physics into a 15 minute video.
That takes alot of skill and I respect it

1. *What is Flux?*
- In simple terms, flux refers to the flow or movement of something. 🌊 It could be particles, energy, or even abstract concepts like information.

2. *How is it Used in Physics and Science?*
- In physics, flux often refers to the flow of a physical quantity through a surface. For example, in electromagnetism, magnetic flux represents the amount of magnetic field passing through a surface. In fluid dynamics, it refers to the flow rate of a fluid through a surface.

3. *Why is it Important?*
- Flux is crucial because it helps scientists and engineers understand how things move or change. By studying flux, we can better understand processes in nature, design efficient systems, and predict outcomes in various scientific fields.

4. *Tips to Remember and Differentiate:*
- Think of flux as the "flow" of something. Picture it like a river flowing through a channel.
- Remember that flux can represent different things depending on the context, such as magnetic flux, electric flux, or flux in fluid dynamics.

5. *In Science Fiction:*
- In science fiction, flux is often portrayed as a mysterious force or energy that can manipulate space, time, or reality itself. It's used to create intriguing plot devices, like time travel or alternate dimensions.

So, imagine flux as the invisible currents that shape the universe, whether in the real world of science or the imaginative realms of science fiction.

as a physics major i like to watch these kind of videos as a "meme", but wow, this one is actually brilliant, you managed to explain complex topics in simple and interesting words and the way you edit videos made it 10 times better, your talent is just wow
Now i'm going to binge watch your videos instead of studying

As a physics major i want to say that your work is brilliant mate well done, exceptional and informative content. It is one thing to know this information, but to convey it in such a way is another talent in itself. I am going to binge watch the rest of your content.

The way you tie one concept to another is immaculate. I've watched many relativity, entropy videos but by far you explained the concept best.

As a 18yo nerd who likes to relax watching these videos while studying other random things... I was surprised by how well you explained???
I normally don't comment on videos, but your humor and you explaining complex things as "casually daily basis knowledge" is beyond fascinating.
Hope you're well and learning something new everyday.

"so really, you're not overweight, you're just on the wrong planet" 💀💀💀

as someone who is working on becoming a physics teacher, this is a fantastic resource for explaining high-level concepts in super general terms! fantastic content, definitely looking forward to more

I've been in engineering for over 8 years. I have seen so many texts and videos for entropy, including the veritasium one. No video/text/article has ever explained entropy in such concise and easy way to anyone before. Everything after entropy while being a clusterfuck for physicists all over was incredibly well explained given the format. 🎉

1. *Centrifugal Force:*
- Imagine you're spinning around on a merry-go-round 🎠, and you feel like you're being pushed away from the center. That feeling is like experiencing centrifugal force.
- Centrifugal force is the apparent outward ⬅️➡️ force experienced by an object rotating around a center point. It's like the feeling you get when you're in a car going around a sharp curve, and you feel like you're being pushed to the side.

2. *Centripetal Force:*
- Now, imagine you're holding onto a string attached to a spinning ball, and you're pulling the ball towards you. 🧶The force you're exerting to keep the ball moving in a circle is like centripetal force.
- Centripetal force is the inward ➡️⬅️ force that keeps an object moving in a circular path. It's like the tension in a rope or the gravitational pull that keeps planets orbiting around the sun.

(*Similarities and Differences:*
- Both Centrifugal force and Centripetal force are related to circular motion ⭕️, but they act in opposite directions.
- Centripetal force points towards the center of the circular path and is responsible for keeping objects moving in a circle. It's like the "pulling" force that keeps things together. ➡️⬅️
- Centrifugal force, on the other hand, points away from the center of rotation and is experienced by objects in circular motion as they "push" outward. ⬅️➡️ It's an apparent force, meaning it's not a real force but rather the result of inertia trying to keep objects moving in a straight line.)

(*Importance and Practical Use:*
- Understanding Centrifugal and Centripetal forces is crucial in physics, especially when dealing with rotating systems ⭕️ like amusement park ride, planetary orbits, or even the spin cycle of a washing machine.
- Engineers use these concepts to design safe and efficient machinery and structures, ensuring that forces are balanced and materials are used effectively.)

(*Remembering Tips:*
- Think of centripetal force as the "center-seeking" force that keeps objects moving in a circle, while centrifugal force is the "center-fleeing" force that makes objects feel like they're being pushed away from the center.
- Remembering their names can help differentiate their effects: "Centripetal" for center-seeking ➡️⬅️ and "Centrifugal" for center-fleeing ⬅️➡️.)

In summary, Centrifugal force and Centripetal force are essential concepts in physics that describe the behavior of objects in circular motion.
While Centripetal force keeps objects moving in a circle by pulling them towards ➡️⬅️ the center, Centrifugal force is the apparent outward ⬅️➡️ force experienced by objects in rotating systems. Understanding these forces helps us design and analyze rotating machinery and structures in the real world.

The support on this video is huge, thanks to everyone! (I do read all comments ;) )
This video seems to be gaining a lot of positive attention, so here's a question: Would you like to see more of these? Which topic should I cover next? Comment below⬇

“they’re strange but charming from up top down to the bottom” has got to be the best way to describe quarks ever

1. *Conformity Field:*
- Imagine you're in a crowded room, and everyone starts dancing 💃🕺 to the same beat without even realizing it! That's like a conformity field—a force that makes things in the universe behave in similar ways. 🪩
- In physics, a conformity field is a hypothetical concept that suggests there might be underlying principles or laws that govern the behavior of matter and energy on large scales, leading to conformity or uniformity in the universe 🌌.

2. *Worldline:*
- Picture a cosmic rollercoaster 🎢 track tracing the path of a particle through spacetime. That's a worldline!
- In physics, a worldline is the path that an object traces through spacetime over its entire existence, showing its position at every moment in time.

3. *Anti-de Sitter Space:*
- Imagine a weird, warped room where distances seem to shrink as you move away from the center. That's like Anti-de Sitter space—a strange kind of spacetime with negative curvature ➖.
- In theoretical physics, anti-de Sitter space is a solution to Einstein's equations of general relativity with negative cosmological curvature. It's used in string theory and other areas of research to explore the nature of spacetime and the universe.

(*Importance in Physics and Astronomy:*
- These concepts are important in physics and astronomy because they help us understand the fundamental nature of the universe, the behavior of matter and energy, and the structure of spacetime itself.
- They're used in theoretical models and mathematical frameworks to describe the dynamics of particles, the evolution of galaxies and the cosmos, and the fundamental forces that govern the universe.)

(*Tips to Remember and Differentiate:*
- Think of the Conformity Field as the cosmic dance floor 🪩, the Worldline as the cosmic rollercoaster track 🎢, and Anti-de Sitter space as the cosmic funhouse with negative curvature ➖.)

In summary, these terms help us delve deeper into the mysteries of the universe, from the fundamental forces of nature to the structure of spacetime itself!

Okay, hands down the best video i saw in years. Great job!
i will definetly look into more from you, i love it.