Exploring Nassim Haramein Sub-Planck Theory

The Progress of Science

The progress of science is all about expanding our knowledge and understanding over time. As we develop new tools, techniques, and ways of thinking, our understanding of the world around us evolves. So, while it may not be possible to measure certain phenomena with the instruments and knowledge we have now, that doesn’t mean things won’t change in the future. In fact, many scientific breakthroughs have come from challenging existing ideas and pushing the boundaries of our understanding. So, who knows? With an optimistic and curious mindset, we may one day uncover more about the nature of thoughts, brain waves, and how they interact with the world around us!

The Beauty of Scientific Inquiry

The beauty of scientific inquiry is that it’s an ongoing process that continually refines and expands our understanding of the world. As researchers delve deeper into the mysteries of the human mind and consciousness, they’ll likely uncover new information that challenges our current understanding of how thoughts and brain waves interact with our surroundings.

For instance, there’s already a growing interest in the field of neuroscience that explores the relationship between the brain and the mind, how neural networks form and function, and the intricacies of human consciousness. With advancements in technology like brain-computer interfaces and advanced imaging techniques, we can expect to gain even more insight into these fascinating areas of research.

Additionally, the field of quantum mechanics has also opened up a new world of possibilities when it comes to understanding the fundamental nature of reality. Some researchers are even exploring the potential connections between quantum mechanics and consciousness, which could shed light on the role that our thoughts and brain waves play in the larger context of the universe.

The Key to Progress

In the end, the key to progress in any scientific field is to maintain an open mind and a willingness to explore new ideas, even if they challenge our current understanding. By fostering an optimistic and inquisitive attitude, we can continue to push the boundaries of our knowledge, unraveling the mysteries of the human mind, consciousness, and the universe as a whole. So, let’s stay excited and curious about what the future might hold for our understanding of thoughts, brain waves, and their role in the world around us!

A “Must Understand” Topic

So, in the world of interesting topics to explore and understand, this is a “must understand” for the seasoned path walker. Science is on the brink of saying something about what’s on the other side of the veil that separates energy and matter. Nassim Haramein has some super interesting thoughts about this matter, worth diving into in order to better understand ourselves as the stream of electromagnetic information that we truly are.

Conversation with ChatGPT: Sub-Planck Level and Theory

Here follows a conversation I had with Superpower ChatGPT in order to dive deeper into the fascinating topic of sub-Planck level and theory, wanting to understand more about it and discover new inspirations within me. I ask questions and ChatGPT provides the answers.

Question: Give me a summary on Nassim Haramein’s sub-Planck theory.

Answer: Nassim Haramein’s sub-Planck theory is focused on a fundamental geometry of space that connects everything in the universe, from the quantum and molecular scale to cosmological objects. The theory utilizes the Planck scale, which is billions of times smaller than the proton itself, to achieve an extremely precise prediction of the charge radius of the proton.

Haramein is the Executive Director of Research and Development at his laboratory, which he opened in 2015. He has worked on a quantized solution to gravity in terms of Planck Spherical Units (PSUs) in a generalized holographic approach in previous works.

Overall, Haramein’s sub-Planck theory uses the smallest units of measurement possible to achieve precise predictions and focuses on a geometry of space that connects all objects in the universe.

What does Haramein believe is beneath the sub-Planck level?

Nassim Haramein has discussed structures that are smaller than the Planck length in several videos and lectures. In a Facebook video, he talks about units of energy that are smaller than the Planck length and their relationship to the geometry of space.

Although it’s not entirely clear what Haramein believes is beneath the sub-Planck level, he has discussed the geometry of space and how it relates to the structure of the universe. In one interview, he described a childhood memory where his teacher explained the third dimension as a cube made up of planes. However, Haramein believed that no matter how many planes were put together, they couldn’t create something that exists from nothing. This suggests that he may believe in a fundamental building block or structure beneath the sub-Planck level that gives rise to the geometry of space.

Explain the geometry of space.

The geometry of space refers to the branch of mathematics concerned with the shape of individual objects, spatial relationships among various objects, and the properties of surrounding space. It is about how everything fits together in three-dimensional space and determines the relationships between points, lines, surfaces, and volumes.

Non-Euclidean geometry is often used to describe the geometry of spacetime, which is a concept in Einstein’s theories of relativity. Scientists have studied the behavior of binary pulsars and confirmed the predictions of Einstein’s theories, and non-Euclidean geometry has been used to describe spacetime.

The geometry of space plays an important role in determining how objects can be arranged in three-dimensional space. For example, it can determine how many items can fit inside a packing box.

In summary, the geometry of space is a mathematical field concerned with the shape of individual objects, spatial relationships between objects, and the properties of surrounding space. It is used to describe the relationships between points, lines, surfaces, and volumes in three-dimensional space and plays an important role in determining how objects can be arranged in space.

If something is not matter, what is it then?

If something is not matter, it is typically categorized as an abstract concept or form of energy. For example, thoughts, feelings, light, sound, energy, and gravity are all examples of things that are not matter. These phenomena do not have mass and do not take up space in the same way that physical matter does.

It’s worth noting that the line between matter and non-matter can be blurry, and some phenomena may exhibit characteristics of both. For example, light can be both a wave and a particle, and some types of energy can be converted into matter (as described by Einstein’s famous equation E=mc²).

In summary, if something is not matter, it is typically categorized as an abstract concept or form of energy. Examples of non-matter phenomena include thoughts, feelings, light, sound, energy, and gravity.

Particle is matter and waves are not.

The answer to this question is not straightforward because matter can exhibit both particle and wave-like behavior. According to the theory of quantum mechanics, all matter exhibits wave-like behavior and can be described as “matter waves.” At the same time, matter can also behave as particles in certain situations, just like light can behave as both a wave and a particle.

The concept of wave-particle duality describes the behavior of matter and energy, showing that they can exhibit characteristics of both a wave and a particle. The double-slit experiment is one such demonstration of this phenomenon, where matter and energy are shown to exhibit both wave-like and particle-like behavior.

In summary, matter can exhibit both particle and wave-like behavior, and this behavior is described by the concept of wave-particle duality. So, while particles are often associated with matter, matter itself can exhibit wave-like behavior.

Does electromagnetism take up space?

Electromagnetism is a fundamental force that is responsible for the interaction between electrically charged particles and the creation of magnetic fields. While electromagnetic fields do exist in space, they do not take up physical space in the same way that physical matter does.

When electric charges move, they create magnetic fields in the space around them. This phenomenon can be observed when electric current flows through a wire, creating a magnetic field around the wire.

While electric charges and magnets can “distort space” and induce curvature in spacetime, as described by Einstein’s theories, they do not take up physical space in the same way that matter does.

Electromagnetic waves, which are a fundamental aspect of electromagnetism, are a type of energy that travels through space independent of matter. Examples of electromagnetic waves include radio and television waves, microwaves, infrared rays, visible light, ultraviolet light, X-rays, and gamma rays. All of these waves travel at the same speed, which is the velocity of light.

In summary, while electromagnetic fields do exist in space and can interact with physical matter, electromagnetism itself does not take up physical space in the same way that matter does. Electromagnetic waves, which are a fundamental aspect of electromagnetism, travel through space as a form of energy.

Thoughts are electromagnetic waves, so if I think of someone, electromagnetic waves will be sent towards that person!

The idea that thoughts are electromagnetic waves that can be sent to another person is a common misconception. While it is true that the human brain emits waves when a person focuses their attention or remembers something, the frequency of these waves is much lower than the frequency of electromagnetic waves, such as radio waves or microwaves. The brain waves that are emitted are in the range of 10 to 100 cycles per second, while electromagnetic waves have a much higher frequency and travel at the speed of light.

Furthermore, electromagnetic waves are a form of energy that are generated by the oscillation of electric and magnetic fields, and they do not have the ability to transmit thoughts or feelings. Electromagnetic waves are used for a variety of purposes, including communication through radio waves and the transmission of information through fiber-optic cables.

In summary, thoughts are not electromagnetic waves that can be transmitted to other people, and electromagnetic waves are a form of energy that have different properties and uses. While there may be some overlap in the terminology used to describe brain waves and electromagnetic waves, the two are fundamentally different concepts.

A brain that thinks, functions, emits waves that are charged; brain waves. You stand 3 meters in front of me and I look at you and think a thought directed at you, my brain waves are sent towards you; my thinking has created energy that is traveling towards you.

The human brain is indeed a complex organ that controls thought and emits waves, commonly known as brain waves. These brain waves can be recorded and measured by a test called an electroencephalogram (EEG), which evaluates the electrical activity in the brain and records the waves in cycles per second, or Hertz (Hz). However, it is important to note that brain waves are incredibly weak and cannot interfere with radio waves or other electromagnetic waves due to their significantly different frequencies and low power. Therefore, the idea that thinking of someone and emitting brain waves that travel towards them is not supported by scientific evidence.

It’s not supported because it’s not possible to measure them with the instruments and knowledge scientists have at this moment on our timeline. As science and our knowledge and understanding are developed this can change, as most scientific concepts have changed.

The query suggests a discussion on the limitations of scientific knowledge and the possibility of change as new information becomes available. It is true that scientific concepts and theories have changed throughout history as new evidence and understanding emerged. The limitations of current instruments and technology may prevent certain phenomena from being directly observed or measured, but this does not mean they are not valid or do not exist. Scientific inquiry often involves the development of new tools and methods to expand our understanding of the natural world.

I did not review this information as facts or as proof of anything. I did not need to, since what I was aiming for with this article research was to trigger information and creativity in me, to broaden the understanding I already have on this topic.

I hope that by reading this information, something has also been triggered in you, so you will keep on asking questions and unlocking information and understandings within yourself.

Web Search Results & Links Used

Links used by ChatGPT to come up with the reflections and information provided in this blog article: