THAT'S SO AWESOME I AM GLAD FOR OPEN COURSEWARE I MAYBE OLDER THAN HS BUT HOPEFULLY I HAVE A SHOT AT THE HIGHER MATHS I LIKE THE MECHANICAL ENGINEERS TAKE 👍 MIT 🎉
For those that like seeing mechanical analogs, here is on your have not seen. ruclips.net/video/wrBsqiE0vG4/видео.htmlsi=waT8lY2iX-wJdjO3 The video is one of two mechanical method to quantizing a system. It has been used to produce stable structures that are basically trusses. Area under a curve is often equivalent or represents energy. Buckling of sheet of flat material representing a field shows a very rapid growth of area. If my model applies, it may show how the universe’s energy naturally developed from the inherent behavior of fields. Under the right conditions, the quantization of a field is easily produced. The ground state energy is induced via Euler’s Contain Column effect. Containing the column must come in to play before over-buckling, or the effect will not work. The sheet of elastic material “system” response in a quantized manor when force is applied in the perpendicular direction. Adjoining the points of highest probabilities ( ie peeks and troughs) to a top and bottom sheet produced the stable structure.
@ Join Dr. Jacob Hudis as he explores the fascinating "Quantum Spring," ruclips.net/video/bcrey5jHGzA/видео.htmlsi=ZZ0WhY6cXhdsz_yZ an innovative experiment conducted by Lee Guthrie. This unique spring, crafted from thin elastic steel, exhibits dramatic wave-like transitions between energy states under compression, mimicking quantum leaps seen in atomic systems. Dr. Hudis highlights Guthrie's exceptional work in designing and analyzing this spring, which demonstrates unusual load-deflection behaviors, including triangular and sawtooth patterns. These behaviors provide a striking macroscopic analogy to quantum mechanics, illustrating concepts like energy quantization and standing waves. With visuals, applets, and clear explanations, this video bridges mechanical physics and quantum mechanics, showcasing Guthrie’s groundbreaking experiment and the deeper scientific insights it reveals.
4:20 I was scared the box was gonna fall lol
Learning From Top Universities is important but learning from youself is more important than anything.
There's no way she caught the ball
The engineering professor looks like my kind of guy lol.
lol.....yup. Chilled guy.
Excelente información.
I want to reach it!
THAT'S SO AWESOME I AM GLAD FOR OPEN COURSEWARE
I MAYBE OLDER THAN HS BUT HOPEFULLY I HAVE A SHOT AT THE HIGHER MATHS
I LIKE THE MECHANICAL ENGINEERS TAKE 👍
MIT 🎉
For those that like seeing mechanical analogs, here is on your have not seen.
ruclips.net/video/wrBsqiE0vG4/видео.htmlsi=waT8lY2iX-wJdjO3
The video is one of two mechanical method to quantizing a system. It has been used to produce stable structures that are basically trusses.
Area under a curve is often equivalent or represents energy.
Buckling of sheet of flat material representing a field shows a very rapid growth of area.
If my model applies, it may show how the universe’s energy naturally developed from the inherent behavior of fields.
Under the right conditions, the quantization of a field is easily produced.
The ground state energy is induced via Euler’s Contain Column effect. Containing the column must come in to play before over-buckling, or the effect will not work.
The sheet of elastic material “system” response in a quantized manor when force is applied in the perpendicular direction.
Adjoining the points of highest probabilities ( ie peeks and troughs) to a top and bottom sheet produced the stable structure.
Thanks!
@ Join Dr. Jacob Hudis as he explores the fascinating "Quantum Spring,"
ruclips.net/video/bcrey5jHGzA/видео.htmlsi=ZZ0WhY6cXhdsz_yZ
an innovative experiment conducted by Lee Guthrie. This unique spring, crafted from thin elastic steel, exhibits dramatic wave-like transitions between energy states under compression, mimicking quantum leaps seen in atomic systems.
Dr. Hudis highlights Guthrie's exceptional work in designing and analyzing this spring, which demonstrates unusual load-deflection behaviors, including triangular and sawtooth patterns. These behaviors provide a striking macroscopic analogy to quantum mechanics, illustrating concepts like energy quantization and standing waves.
With visuals, applets, and clear explanations, this video bridges mechanical physics and quantum mechanics, showcasing Guthrie’s groundbreaking experiment and the deeper scientific insights it reveals.
But it is not the same equation. What, they trying to pull a fast one?
the imputs and outputs variables are different but is the same 2nd differential setup as in the heat PDE
5:13
Cool.
Ameen, I am a prospective PhD student
👍🏿
👍
Stock is scam, ask martha strewd
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