Healing sounds from buzzing bees; fluid dynamics, quantum science & aether ... or a newly discovered ambipolar electric field around the Earth?

Angry bees sound angrier.... though, watch out! Quantum patterns of bumblebee flight and their gravity defying abilities.

Aug 30, 2024

Sound is a communication, and the sound of a beehive can be healing for us humans in addition to the anti-inflammatory and anti-cancer benefits of raw honey. Sound can also be a warning to back away from the angry bee. They vibrate at a different frequency if feeling threatened.

The flutter of the fast-moving wings creates the buzzing sound. Different types of bees can have a slightly different average frequency, between 200-400 Hz is typical, up to 1000 Hz might mean you should back away fast.

Not bees - it sounds like angry bees though:

Nikolai Rimsky-Korsakov (1844-1908): The Flight of the Bumblebee (1899) (Youtube)

Honeybees don’t want to sting you because it means their death - for the worker bees. A queen bee and other types of bees can sting more than once. Wasps can also sting more than once. (Brave AI summary)

Read more: Buzzing Bees Emit A Healing Vibrational Frequency, by Jen Fitschen, Gingko Farms, (gfadk.com)
Gardening with Bees in Mind, a previous post of mine also has some How to Raise Bees pdf links.

a couple of bees sitting on top of a yellow flower — Photo by viswaprem anbarasapandian on Unsplash

Fluid dynamics has helped with the study of bumblebee flight - the insects seem impossible because their wings proportionally are so small compared to their body - which also acts as a pack mule as their legs get coated with sticky pollen to take back to the hive.

Their tiny wings are not flapping up and down. Bees do more of a swimming back and forth motion, but with a flip at each end - palm up when moving forward, flip, palm down when moving backward. The flips are the key feature of bumblebee’s gravity defying abilities. Little vortices are formed in the air at each flip - mini hurricanes which then provide counter pressure to kind-of help levitate/support the large body of the bee. Read more: How Bees Fly, (livescience.com).

black and brown bee on brown wood — Photo by Alexandre Debiève on Unsplash

Aether energy is flowing around the Earth and all around us. It flows in patterns similar to water and is attracted to water and magnet attracting metals. It is electric in nature but not quite the same as electricity or magnetism. See my series about James DeMeo’s book for more info. Correcting a Major Error in Modern Science - The Dynamic Ether of Cosmic Space, James DeMeo, 2019. (Part one post) It includes a link to an old book I found with a good explanation of aether theory written prior to Einstein’s info leading to a rewrite of physics. (Part two) (Part three) (Part four) *I didn’t complete the book summary.

And for something totally different - Christmas lectures from 1902, a 1923 4th Edition. Waves and Ripples in Water, Air, and Aether, being the 76th course of Christmas lectures delivered at the Royal Institution of Great Britain, by J. A. Fleming, MA, DSc., FRS. https://www.dropbox.com/s/g7ec5jvjiysjn5h/waves_and_ripples_in_water_air_and_aethe.pdf?dl=0

a river flowing through a grassy area — Sand art, by Mother Nature. Photo by Ivan Bandura on Unsplash

A comment I made about gravity on this post also involves fluid dynamics and air flow - aether flow. It also includes some ‘breaking news’ - NASA has discovered an electric field around the planet which they are calling ambipolar. (science.nasa.gov)

The comment was on this post about developing a jargon glossary in preparation for an international speaking (translator planned) event.

Remote View

Glossary

Many of you have asked for a glossary of common terms I and the community use. Things have got real urgent since I understand there will be 6 or so Czech participants in next weeks BRNO “Advanced Energy Systems” meeting that I and Paul Harris will be hosting and a company will be hired to provide realtime translation. Of course they are more nervous tha…

3 months ago · 18 likes · 28 comments · Bob Greenyer

Gravity can be explained by the flow of aether around an object in space supporting it like a Pingpong ball floating on water, except the aether is all around instead of a water surface.
See James DeMeo's 2019 book and also Fluid dynamics scientists understand flow and can explain the double slit experiment as particles on waves.
Correcting a Major Error in Modern Science - The Dynamic Ether of Cosmic Space, James DeMeo, 2019.
NASA/US has announced a 'electric field' around the Earth - ambipolar.... sounds like aether to me. NASA Discovers a Long-Sought Global Electric Field on Earth, (science.nasa.gov)

Interplay of Fluid Dynamics and Quantum Phenomena in the Double Slit Experiment

Brave AI summary - a main reference it used:

When fluid dynamics mimic quantum mechanics. “MIT researchers expand the range of quantum behaviors that can be replicated in fluidic systems, offering a new perspective on wave-particle duality.”
Larry Hardesty, MIT News Office, Publication Date: July 29, 2013 (news.mit.edu)

The double slit experiment, a cornerstone of quantum mechanics, has been replicated in fluid dynamics, demonstrating a striking analogy between the behavior of particles and waves in both domains. This connection highlights the fundamental principles of wave-particle duality and the probabilistic nature of quantum mechanics.

Fluidic Double Slit Experiment

In 2006, physicists Yves Couder and Emmanuel Fort at Université Paris Diderot created a pilot-wave system using a vibrating fluid bath and a drop of fluid (a “quantum droplet”). The droplet bounced across the surface, exhibiting wave-like behavior, including interference patterns when passing through a double slit. This experiment mimicked the quantum double slit experiment, where particles (such as electrons) exhibit wave-like behavior when passing through two slits, producing an interference pattern on a screen.

Key Findings

Pilot-wave dynamics: The fluidic system demonstrated pilot-wave behavior, where the droplet’s motion was influenced by a guiding wave, similar to the pilot wave in quantum mechanics.

Interference patterns: The droplet’s passage through the double slit produced interference patterns, analogous to those observed in quantum mechanics.

Quantum-like behavior: The fluidic system exhibited quantum-like behavior, including wave-particle duality and probabilistic outcomes.

Implications

Universal principles: The fluidic double slit experiment suggests that certain principles, such as wave-particle duality and probabilism, are fundamental and universal, applicable to both quantum and classical systems.

New perspectives: This connection offers a fresh perspective on quantum mechanics, allowing researchers to explore the underlying principles using analogies from fluid dynamics.

Potential applications: The fluidic system may inspire new technologies, such as microfluidic devices or sensors, that exploit the principles of wave-particle duality and probabilism.

In Conclusion

The fluid dynamics-double slit experiment connection highlights the deep connections between seemingly disparate domains. By exploring these analogies, researchers can gain a deeper understanding of the fundamental principles governing quantum mechanics and potentially develop innovative technologies.

(Fluid Dynamics…Brave AI summary) <- links here.

brown bee flying near yellow petaled flower — Photo by Brad Huchteman on Unsplash

Bumblebee Flight Dynamics under Quantum Mechanics

(Brave AI summary, follows the excerpt) *This is about larger patterns of flight - their search style over a distance - how do they find the pollen with minimal exploration? They seem to have short flights with somewhat random long flights interspersed - ‘bumbling’ their way around the flower garden looking for the pollen rich flowers. It seems to work for them.

“At first glance, a system consisting of 51 ions may appear easily manageable. But even if these charged atoms are only changed back and forth between two states, the result is more than two quadrillion (10¹⁵) different orderings that the system can take on.
The behavior of such a system is almost impossible to calculate with conventional computers, especially since an excitation introduced to the system can propagate erratically. The excitation follows a statistical pattern referred to as a Lévy Flight.
One characteristic of such movements is that, in addition to the smaller jumps which are to be expected, also significantly larger jumps take place. This phenomenon can also be observed in the flights of bees and in unusual fierce movements in the stock market.” […]
“In the near future, quantum simulators and quantum computers will be ideal platforms for researching the dynamics of complex quantum systems," explains Michael Knap. "Now we know that after a certain point in time these systems follow the laws of classic fluid dynamics. Any strong deviations from that are an indication that the simulator isn't working properly."
More information: M. K. Joshi et al, Observing emergent hydrodynamics in a long-range quantum magnet, Science (2022). DOI: 10.1126/science.abk2400. www.science.org/doi/10.1126/science.abk2400”
Read more: Quantum systems and the flight of the bee, by University of Innsbruck, May 12, 2022, (Phys.org)

The flight of bumblebees has been found to exhibit characteristics similar to those of quantum systems, particularly in their unpredictable and seemingly random movements. Researchers have drawn parallels between the flight patterns of bumblebees and Lévy flights, a mathematical concept used to describe the random walks of particles in quantum systems.

Lévy Flight Statistics

Studies have shown that bumblebees’ search strategies, as they forage for nectar, follow Lévy flight statistics. This means that their flights over long distances are given a larger weight than in traditional random walk models. This phenomenon can also be observed in the behavior of quantum systems, where particles exhibit similar unpredictable movements.

Fluid Dynamics and Quantum Analogies

Researchers have used quantum simulators to model the fluid dynamics of bumblebee flight. By representing the north and south poles of a molecular magnet using two energy levels of ions, they were able to demonstrate that the system could be described using equations familiar from fluid dynamics. Moreover, they showed that the same Lévy flight statistics that describe bee search strategies also apply to fluid-dynamic processes in quantum systems.

Implications and Future Directions

The discovery of quantum-like dynamics in bumblebee flight has significant implications for our understanding of complex systems. It highlights the potential for quantum-inspired approaches to model and analyze the behavior of biological systems, which could lead to breakthroughs in fields such as ecology, biology, and medicine.

Key Takeaways

Bumblebee flight exhibits Lévy flight statistics, similar to quantum systems.
Quantum simulators can be used to model fluid dynamics in bumblebee flight.
The same mathematical concepts describe both bee search strategies and fluid-dynamic processes in quantum systems.
This research has implications for understanding complex biological systems and developing quantum-inspired approaches for modeling and analysis.

Links here: (Bumble flight... Brave AI Summary)

Disclaimer: This information is being provided for educational purposes within the guidelines of Fair Use and is not intended to provide individual health care guidance - but bees are good for the environment and that is good for all of us.

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