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Bio entanglement physics - or theory (BET) - has it's roots in Quantum Field Theory. QFT is the idea, proven to a large degree, that if you wiggle a particle on this side of the galaxy, it's tied-pair-partner (very hard to describe in laymans' terms, sorry) will mirror that movement on the other side of the galaxy; at the same time. Einstein had great trouble with this, because it breaks the boundaries of the General Theory of Relativity, or E=mc2. He and two other well known physicists set up experiments to disprove the notion, and ended up proving it instead! The reason I bring these up is that QFT implies that information can, regardless of it's size or length, travel beyond the speed of light; indeed, instantly. BET attempts to utilise this information and understanding to prove that there is a link between living beings. In much the same way that fish - all at the same time - change direction in a school with no understanding of why the same direction was chosen by all the fish at once. The actions happen multiples of times faster than the bioelectrical pathways would allow. Or why you are thinking about someone and the phone rings; and it's the person you were thinking of. It goes further still. REGs, or random event generators, measure the frequency of the Earth's atmosphere. The Earth vibrates at a particular frequency which increases or decreases over patches of high energy intensity, like a large lightning storm, earthquake area.....or Tokyo! These REGs also picked up serious frequency fluctuations worldwide around events like Sept 11 2001, Katrina, Aceh Tsunami and the Iraq invasion. It appears that when human emotions are aligned, on a larger than normal scale, that the atmospheric frequency of the Earth changes - but more research is needed to entirely prove it. The evidence to date, however, is quite compelling. So this is BET in a nutshell - the desire to prove conscious interconnectedness. Aaron Sice - www.aaronsice.com.au
What else can I help you with?
How does quantum entanglement work and what are its implications for the field of quantum physics?
Quantum entanglement occurs when two particles become connected in a way that their properties are dependent on each other, no matter the distance between them. This phenomenon challenges our understanding of classical physics and has implications for quantum communication, computing, and cryptography. It suggests that particles can be interconnected in ways that defy traditional notions of space and time.
What is the most challenging Big Bang Theory physics bowl question you have ever encountered?
One of the most challenging Big Bang Theory physics bowl questions I have encountered is about quantum entanglement and its implications for teleportation.
What is Bell's inequality and how does it relate to the concept of quantum entanglement?
Bell's inequality is a mathematical expression that tests the limits of classical physics by examining the correlations between measurements on entangled particles. Quantum entanglement is a phenomenon where two or more particles become connected in such a way that the state of one particle is instantly correlated with the state of another, regardless of the distance between them. Bell's inequality shows that these correlations cannot be explained by classical physics, providing evidence for the non-local nature of quantum entanglement.
Why is quantum entanglement important in the field of quantum physics and how does it impact our understanding of the fundamental principles of the universe?
Quantum entanglement is important in quantum physics because it allows particles to be connected in a way that their properties are instantly correlated, regardless of the distance between them. This phenomenon challenges our traditional understanding of cause and effect, and suggests that there may be underlying principles of the universe that we have yet to fully grasp. By studying quantum entanglement, scientists are able to explore the fundamental nature of reality and potentially uncover new insights into the workings of the universe.
What is quantom physics?
Quantum physics is the branch of physics that focuses on the behavior of particles at the smallest scales, such as atoms and subatomic particles. It describes how particles can exist in multiple states simultaneously and how they can exhibit characteristics of both particles and waves. Quantum physics is essential for understanding phenomena like superposition, entanglement, and quantum computing.
What are the major area of science?
Bio, chem and physics?
What are the type of physics?
Types of PhysicsParticle PhysicsAstrophysicsTheoretical PhysicsExperimental/Applied PhysicsMechanical PhysicsQuantum Physics (Quantum Mechanics)Bio Physics
What are the different types of physics?
Types of PhysicsParticle PhysicsAstrophysicsTheoretical PhysicsExperimental/Applied PhysicsMechanical PhysicsQuantum Physics (Quantum Mechanics)Bio Physics
What are the different ares of physics?
Types of PhysicsParticle PhysicsAstrophysicsTheoretical PhysicsExperimental/Applied PhysicsMechanical PhysicsQuantum Physics (Quantum Mechanics)Bio Physics
Can you explain the significance of quantum entanglement in modern physics, Dr. Smith?
Quantum entanglement is a phenomenon where two particles become connected in a way that their properties are correlated, even when they are far apart. This has significant implications in modern physics because it challenges our understanding of how particles interact and has led to the development of technologies like quantum computing and quantum teleportation.
Has Quantum Entanglement been proved or disproved yet?
Quantum entanglement was an observation in the 1930s, it's established as much of a fact as can be in physics since then. The current status is determining whether information transfer is instantaneous or has lag time.
How does quantum entanglement work and what are its implications for the field of quantum physics?
Quantum entanglement occurs when two particles become connected in a way that their properties are dependent on each other, no matter the distance between them. This phenomenon challenges our understanding of classical physics and has implications for quantum communication, computing, and cryptography. It suggests that particles can be interconnected in ways that defy traditional notions of space and time.
What is the most challenging Big Bang Theory physics bowl question you have ever encountered?
One of the most challenging Big Bang Theory physics bowl questions I have encountered is about quantum entanglement and its implications for teleportation.
What is Bell's inequality and how does it relate to the concept of quantum entanglement?
Bell's inequality is a mathematical expression that tests the limits of classical physics by examining the correlations between measurements on entangled particles. Quantum entanglement is a phenomenon where two or more particles become connected in such a way that the state of one particle is instantly correlated with the state of another, regardless of the distance between them. Bell's inequality shows that these correlations cannot be explained by classical physics, providing evidence for the non-local nature of quantum entanglement.
What do you have to do to be a chemist?
Depends on if you have an emphasis in chemistry and what it is. Generally, chemistry, math, physics, and bio.
What subjects do you need in south Africa to become a paramedic?
maths,physics and bio
Why is quantum entanglement important in the field of quantum physics and how does it impact our understanding of the fundamental principles of the universe?
Quantum entanglement is important in quantum physics because it allows particles to be connected in a way that their properties are instantly correlated, regardless of the distance between them. This phenomenon challenges our traditional understanding of cause and effect, and suggests that there may be underlying principles of the universe that we have yet to fully grasp. By studying quantum entanglement, scientists are able to explore the fundamental nature of reality and potentially uncover new insights into the workings of the universe.
