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eli-kittim · 4 years ago

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Science & God’s Existence

By Author Eli Kittim

Can We Reject Paul’s Vision Based On the Fact that No One Saw It?

Given that none of Paul’s companions saw or heard the content of his visionary experience (Acts 9), on the road to Damascus, some critics have argued that it must be rejected as unreliable and inauthentic. Let’s test that hypothesis. Thoughts are common to all human beings. Are they not? However, no one can “prove” that they have thoughts. That doesn’t mean that they don’t have any. Just because others can’t see or hear your thoughts doesn’t mean they don’t exist. Absence of evidence is not evidence of absence. Obviously, a vision, by definition, is called a “vision” precisely because it is neither seen nor observed by others. So, this preoccupation with “evidence” and “scientism” has gone too far. We demand proof for things that are real but cannot be proven. According to philosopher William Lane Craig, the irony is that science can’t even prove the existence of the external world, even though it presupposes it.

No one has ever seen an electron, or the substance we call “dark matter,” yet physicists presuppose them. Up until recently we could not see, under any circumstances, ultraviolet rays, X – rays, or gamma rays. Does that mean they didn’t exist before their detection? Of course not. Recently, with the advent of better instruments and technology we are able to detect what was once invisible to the human eye. Gamma rays were first observed in 1900. Ultraviolet rays were discovered in 1801. X-rays were discovered in 1895. So, PRIOR to the 19th century, no one could see these types of electromagnetic radiation with either the naked eye or by using microscopes, telescopes, or any other available instruments. Prior to the 19th century, these phenomena could not be established. Today, however, they are established as facts. What made the difference? Technology (new instruments)!

If you could go back in time to Ancient Greece and tell people that in the future they could sit at home and have face-to-face conversations with people who are actually thousands of miles away, would they have believed you? According to the empirical model of that day, this would have been utterly impossible! It would have been considered science fiction. My point is that what we cannot see today with the naked eye might be seen or detected tomorrow by means of newer, more sophisticated technologies!

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Can We Use The Scientific Model to Address Metaphysical Questions?

Using empirical methods of “observation” to determine what is true and what is false is a very *simplistic* way of understanding reality in all its complexity. For example, we don’t experience 10 dimensions of reality. We only experience a 3-dimensional world, with time functioning as a 4th dimension. Yet Quantum physics tells us there are, at least, 10 dimensions to reality: https://www.google.com/amp/s/phys.org/news/2014-12-universe-dimensions.amp

Prior to the discoveries of primitive microscopes, in the 17th century, you couldn’t see germs, bacteria, viruses, or microorganisms with the naked eye! For all intents and purposes, these microorganisms DID NOT EXIST! It would therefore be quite wrong to assume that, because a large number of people (i.e. a consensus) cannot see it, an unobservable phenomenon must be ipso facto nonexistent.

Similarly, prophetic experiences (e.g. visions) cannot be tested by any instruments of modern technology, nor investigated by the methods of science. Because prophetic experiences are of a different kind, the assumption that they do not have objective reality is a hermeneutical mistake that leads to a false conclusion. Physical phenomena are perceived by the senses, whereas metaphysical phenomena are not perceived by the senses but rather by pure consciousness. Therefore, if we use the same criteria for metaphysical perceptions that we use for physical ones (which are derived exclusively from the senses), that would be mixing apples and oranges. The hermeneutical mistake is to use empirical observation (that only tests physical phenomena) as “a standard” for testing the truth value of metaphysical phenomena. In other words, the criteria used to measure physical phenomena are quite inappropriate and wholly inapplicable to their metaphysical counterparts.

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Are the “Facts” of Science the Only Truth, While All Else is Illusion?

Whoever said that scientific “facts” are *necessarily* true? On the contrary, according to Bertrand Russell and Immanuel Kant, only a priori statements are *necessarily* true (i.e. logical & mathematical propositions), which are not derived from the senses! The senses can be deceptive. That’s why every 100 years or so new “facts” are discovered that replace old ones. So what happened to the old facts? Well, they were not necessarily true in the epistemological sense. And this process keeps repeating seemingly ad infinitum. If that is the case, how then can we trust the empirical model, devote ourselves to its shrines of truth, and worship at its temples (universities)? Read the “The Structure of Scientific Revolutions” by Thomas Kuhn, a classic book on the history of science and how scientific paradigms change over time.

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Cosmology, Modern Astronomy, & Philosophy Seem to Point to the Existence of God

If you studied cosmology and modern astronomy, you would be astounded by the amazing beauty, order, structure, and precision of the various movements of the planets and stars. The Big Bang Theory is the current cosmological model which asserts that the universe had a beginning. Astoundingly, the very first line of the Bible (the opening sentence, i.e. Gen. 1.1) makes the exact same assertion. The fine tuning argument demonstrates how the slightest change to any of the fundamental physical constants would have changed the course of history so that the evolution of the universe would not have proceeded in the way that it did, and life itself would not have existed. What is more, the cosmological argument demonstrates the existence of a “first cause,” which can be inferred via the concept of causation. This is not unlike Leibniz’ “principle of sufficient reason” nor unlike Parmenides’ “nothing comes from nothing” (Gk. οὐδὲν ἐξ οὐδενός; Lat. ex nihilo nihil fit)! All these arguments demonstrate that there must be a cosmic intelligence (i.e. a necessary being) that designed and sustained the universe.

We live in an incredibly complex and mysterious universe that we sometimes take for granted. Let me explain. The Earth is constantly traveling at 67,000 miles per hour and doesn’t collide with anything. Think about how fast that is. The speed of an average bullet is approximately 1,700 mph. And the Earth’s speed is 67,000 mph! That’s mind-boggling! Moreover, the Earth rotates roughly 1,000 miles per hour, yet you don’t fall off the grid, nor do you feel this gyration because of gravity. And I’m not even discussing the ontological implications of the enormous information-processing capacity of the human brain, its ability to invent concepts, its tremendous intelligence in the fields of philosophy, mathematics, and the sciences, and its modern technological innovations.

It is therefore disingenuous to reduce this incredibly complex and extraordinarily deep existence to simplistic formulas and pseudoscientific oversimplifications. As I said earlier, science cannot even “prove” the existence of the external world, much less the presence of a transcendent one. The logical positivist Ludwig Wittgenstein said that metaphysical questions are unanswerable by science. Yet atheist critics are incessantly comparing Paul’s and Jesus’ “experiences” to the scientific model, and even classifying them as deliberate literary falsehoods made to pass as facts because they don’t meet scholarly and academic parameters. The present paper has tried to show that this is a bogus argument! It does not simply question the “epistemological adequacy” of atheistic philosophies, but rather the methodological (and therefore epistemic) legitimacy of the atheist program per se.

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physics-scholars · 2 years ago

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Define the undefined in physics

We define now:

1. Concept

2. Assumption

3. Function

4. hypothesis

5. Postulate

6. Rule

7. Formula

8. Equation

9. Model

10. Principle

11. Theorem

12. Law

1. Concept in physics

In physics, a concept is an abstract idea or fundamental principle that helps us understand the behavior of the physical world.

Here are a few examples of concepts in physics:

• Newton's laws of motion: Newton's laws of motion describe the relationship between an object's motion and the forces acting upon it. The three laws are: (1) an object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force; (2) the acceleration of an object is directly proportional to the force acting on it and inversely proportional to its mass; and (3) for every action, there is an equal and opposite reaction. These laws are fundamental to understanding the motion of objects in our everyday lives.

• The theory of relativity: The theory of relativity is a set of two theories, special relativity and general relativity, that describe the relationship between space and time and the behavior of massive objects in the universe. These theories have been tested and confirmed through a variety of experiments, and have helped us understand phenomena such as the bending of light by massive objects and the behavior of particles at high speeds.

• Quantum mechanics:

Quantum mechanics is a branch of physics that describes the behavior of particles on a very small scale, such as atoms and subatomic particles. Concepts in quantum mechanics include the wave-particle duality of particles, superposition (the idea that particles can exist in multiple states simultaneously), and entanglement (the idea that particles can become connected in such a way that the state of one particle affects the state of the other).

• Conservation laws: Conservation laws are fundamental principles in physics that describe the conservation of certain quantities in physical systems. Examples of conservation laws include the conservation of energy (the idea that energy cannot be created or destroyed, only transferred or transformed), the conservation of momentum (the idea that the total momentum of a system remains constant unless acted upon by an external force), and the conservation of angular momentum (the idea that the total angular momentum of a system remains constant unless acted upon by an external torque).

• Electromagnetism: Electromagnetism is the branch of physics that describes the behavior of electric and magnetic fields and their interaction with charged particles. Concepts in electromagnetism include Coulomb's law (which describes the interaction between charged particles), the behavior of electric and magnetic fields, and the relationship between electric currents and magnetic fields. These concepts are fundamental to understanding a wide range of phenomena, from the behavior of electric circuits to the behavior of particles in particle accelerators.

2. Define assumption with examples of physics

In physics, an assumption is a premise or belief that is taken for granted, often without rigorous testing or proof, in order to make predictions or draw conclusions about the behavior of the physical world.

Here are a few examples of assumptions in physics:

• The assumption of a uniform gravitational field: In many physics problems, it is assumed that the gravitational field is uniform over a small region of space. This assumption allows for simplified calculations of the behavior of objects in free fall, such as the time it takes for an object to fall a certain distance or the velocity of an object at a certain height. However, in reality, the gravitational field is not perfectly uniform, and this assumption may not hold in certain situations.

• The assumption of ideal gases: In thermodynamics, an ideal gas is a theoretical gas that is composed of a large number of small particles that are in constant random motion and that do not interact with each other except through perfectly elastic collisions. This assumption allows for simplified calculations of the behavior of gases under certain conditions, such as changes in pressure or temperature. However, in reality, no gas is truly ideal, and the behavior of real gases may differ from that predicted by ideal gas laws.

• The assumption of small angle approximation: In mechanics, the small angle approximation is often used to simplify calculations of the behavior of systems that involve oscillations or vibrations. This assumption assumes that the amplitude of oscillation is small enough that the angle between the system's equilibrium position and its maximum displacement can be approximated as equal to the tangent of that angle. This allows for simplified calculations of the period and frequency of oscillations. However, this assumption may not hold for larger amplitude oscillations.

• The assumption of a frictionless surface: In many physics problems, it is assumed that a surface is completely frictionless. This assumption simplifies calculations of the behavior of objects on surfaces, such as the acceleration of an object on an inclined plane or the time it takes for an object to slide a certain distance. However, in reality, no surface is completely frictionless, and the behavior of real objects may differ from that predicted by calculations based on this assumption.

• The assumption of a closed system: In thermodynamics, it is often assumed that a system is closed, meaning that no matter or energy can enter or leave the system. This assumption allows for simplified calculations of the behavior of the system, such as changes in temperature or pressure. However, in reality, no system is truly closed, and the behavior of real systems may differ from that predicted by calculations based on this assumption.

3. Define function with examples of physics

In physics, a function is a mathematical relationship between two or more variables that describes how one variable depends on another.

Here are a few examples of functions in physics:

• Position as a function of time: In kinematics, position is often described as a function of time. For example, the position of a moving object along a straight line may be given by the function x(t) = vt, where x is the position, t is the time, and v is the velocity of the object. This function describes how the position of the object changes over time.

• Force as a function of distance: In mechanics, the force acting on an object may be described as a function of the distance between the object and another object or surface. For example, the force acting on a spring may be given by the function F(x) = -kx, where F is the force, x is the distance the spring is compressed or stretched, and k is the spring constant. This function describes how the force acting on the spring changes as it is compressed or stretched.

• Temperature as a function of energy: In thermodynamics, the temperature of a system may be described as a function of the energy of the particles within the system. For example, the temperature of an ideal gas may be given by the function T = (2/3)(E/Nk), where T is the temperature, E is the total energy of the gas, N is the number of particles, and k is the Boltzmann constant. This function describes how the temperature of the gas changes as the energy of its particles changes.

• Wave function: In quantum mechanics, the wave function is a mathematical function that describes the behavior of a quantum system. The wave function is typically denoted by the symbol Ψ and is used to calculate the probability of finding a particle in a certain location or state. For example, the wave function for a particle in a one-dimensional box may be given by Ψ(x) = A sin(nπx/L), where Ψ is the wave function, A is a constant, n is an integer, x is the position of the particle, and L is the length of the box. This function describes the probability of finding the particle at a certain position within the box.

• Electric potential as a function of distance: In electromagnetism, the electric potential at a point may be described as a function of the distance between that point and a charged object. For example, the electric potential due to a point charge may be given by the function V(r) = kq/r, where V is the electric potential, k is Coulomb's constant, q is the charge of the object, and r is the distance between the object and the point of interest. This function describes how the electric potential changes as the distance between the object and the point of interest changes.

4. Define hypothesis with the examples of physics

In physics, a hypothesis is a proposed explanation or prediction for a phenomenon that is based on limited evidence or prior knowledge.

A hypothesis is a starting point for scientific inquiry and investigation, and it is often tested and refined through experiments and observations.

Here are a few examples of hypotheses in physics:

• The hypothesis of special relativity: In 1905, Albert Einstein proposed the hypothesis of special relativity, which states that the laws of physics are the same for all observers in uniform motion relative to one another. This hypothesis was based on the observation that the speed of light is always the same, regardless of the motion of the observer or the source of light.

• The hypothesis of the Higgs boson: In the 1960s, physicists proposed the hypothesis of the Higgs boson, which is a particle that is hypothesized to give mass to other particles in the universe. This hypothesis was based on the need to explain why some particles have mass while others do not, and it was eventually confirmed through experiments at the Large Hadron Collider.

• The hypothesis of dark matter: In the 1930s, astronomers proposed the hypothesis of dark matter, which is a form of matter that is hypothesized to exist in the universe but cannot be detected through ordinary means. This hypothesis was based on the observation that the gravitational effects of visible matter in the universe were not sufficient to explain the observed motions of stars and galaxies.

• The hypothesis of the photoelectric effect: In 1905, Einstein proposed the hypothesis that light is composed of discrete packets of energy called photons, which can transfer energy to electrons in a material and cause them to be ejected from the material. This hypothesis was based on experiments that observed the behavior of electrons when exposed to light of different frequencies.

• The hypothesis of the big bang: In the 1920s, astronomers proposed the hypothesis of the big bang, which states that the universe began as a single point of infinite density and temperature and has been expanding ever since. This hypothesis was based on observations of the cosmic microwave background radiation and the distribution of galaxies in the universe.

5. Define postulate with examples of physics

In physics, a postulate is a basic assumption or starting point that is taken to be true without proof.

Postulates are often used to build a theoretical framework or model that can be used to describe and predict the behavior of physical systems.

Here are a few examples of postulates in physics:

• The postulate of the constancy of the speed of light: In special relativity, the postulate of the constancy of the speed of light states that the speed of light is the same for all observers, regardless of their relative motion. This postulate is fundamental to the theory of special relativity and has been confirmed by numerous experiments.

• The postulate of the uncertainty principle: In quantum mechanics, the postulate of the uncertainty principle states that the position and momentum of a particle cannot be simultaneously known with complete accuracy. This postulate is based on the wave-particle duality of quantum systems and has been confirmed by numerous experiments.

• The postulate of the conservation of energy: In classical mechanics, the postulate of the conservation of energy states that the total energy of a closed system is constant. This postulate is based on the observation that energy cannot be created or destroyed, only converted from one form to another.

• The postulate of the equivalence principle: In general relativity, the postulate of the equivalence principle states that the effects of gravity are indistinguishable from the effects of acceleration. This postulate is fundamental to the theory of general relativity and has been confirmed by numerous experiments.

• The postulate of the second law of thermodynamics: In thermodynamics, the postulate of the second law states that the total entropy of a closed system always increases over time. This postulate is based on the observation that all physical processes tend towards a state of maximum disorder or randomness, and has been confirmed by numerous experiments.

6. Define rule with the examples of physics

In physics, a rule is a general principle or guideline that describes how physical systems behave under certain conditions.

Rules are often derived from observations, experiments, and theoretical models, and can be used to predict the behavior of physical systems in a wide range of situations.

Here are a few examples of rules in physics:

• Ohm's law: Ohm's law states that the current through a conductor between two points is directly proportional to the voltage across the two points, provided the temperature and other physical conditions remain constant. This rule is fundamental to the study of electric circuits and is used to design and analyze a wide range of electrical devices.

• Newton's laws of motion: Newton's laws of motion describe how objects move in response to forces acting on them. The first law states that an object at rest will remain at rest, and an object in motion will remain in motion, unless acted upon by an external force. The second law states that the acceleration of an object is directly proportional to the net force acting on it, and inversely proportional to its mass. The third law states that for every action, there is an equal and opposite reaction.

• Boyle's law: Boyle's law states that the pressure of a gas is inversely proportional to its volume, provided the temperature and number of particles remain constant. This rule is used to describe the behavior of gases in a wide range of applications, including the design of engines, refrigeration systems, and industrial processes.

• Snell's law: Snell's law describes how light is refracted when it passes through a boundary between two different media. The law states that the ratio of the sine of the angle of incidence to the sine of the angle of refraction is a constant, known as the refractive index of the two media. This rule is fundamental to the study of optics and is used to design and analyze a wide range of optical devices.

• Kepler's laws of planetary motion: Kepler's laws describe how planets move in their orbits around the sun. The first law states that planets move in elliptical orbits with the sun at one focus. The second law states that planets sweep out equal areas in equal times as they move in their orbits. The third law states that the square of the period of a planet's orbit is proportional to the cube of its average distance from the sun. These laws are fundamental to the study of astronomy and have been used to design and analyze a wide range of space missions

7. Define formula with examples of physics

In physics, a formula is a mathematical expression that describes the relationship between physical quantities.

Formulas are often used to calculate or predict the behavior of physical systems, and can be derived from observations, experiments, and theoretical models.

Here are a few examples of formulas in physics:

• E=mc²: This is one of the most famous formulas in physics, and describes the relationship between energy and mass. The formula states that the energy (E) of an object is equal to its mass (m) multiplied by the speed of light (c) squared. This formula is fundamental to the theory of relativity and has numerous practical applications, such as in nuclear energy.

• F=ma: This formula describes the relationship between force (F), mass (m), and acceleration (a). It states that the force applied to an object is equal to its mass multiplied by its acceleration. This formula is fundamental to the study of mechanics and is used to design and analyze a wide range of physical systems, from bridges and buildings to spacecraft and rockets.

• v=d/t: This formula describes the relationship between velocity (v), distance (d), and time (t). It states that the velocity of an object is equal to the distance it travels divided by the time it takes to travel that distance. This formula is fundamental to the study of kinematics and is used to design and analyze a wide range of physical systems, from cars and airplanes to rockets and satellites.

• P=IV: This formula describes the relationship between power (P), current (I), and voltage (V) in an electrical circuit. It states that the power consumed by a device is equal to the current flowing through it multiplied by the voltage across it. This formula is fundamental to the study of electrical circuits and is used to design and analyze a wide range of electrical devices, from light bulbs and motors to computers and smartphones.

• H=ρgh: This formula describes the relationship between pressure (P), density (ρ), gravitational acceleration (g), and height (h) in a fluid. It states that the pressure at a given depth in a fluid is equal to the density of the fluid multiplied by the gravitational acceleration multiplied by the height of the fluid above the point where the pressure is measured. This formula is fundamental to the study of fluid mechanics and is used to design and analyze a wide range of physical systems, from pipelines and pumps to submarines and ships.

8. Define equation with examples of physics

In physics, an equation is a mathematical statement that describes a relationship between two or more physical quantities.

Equations are often used to model physical phenomena, and can be derived from observations, experiments, and theoretical models.

Here are a few examples of equations in physics:

• The wave equation: The wave equation describes how waves propagate through a medium. It takes the form of a second-order partial differential equation, and can be used to describe a wide range of wave phenomena, from sound waves to electromagnetic waves.

• The Schrödinger equation: The Schrödinger equation is a fundamental equation in quantum mechanics, and describes how the wave function of a quantum system changes over time. It takes the form of a time-dependent partial differential equation, and is used to calculate the behavior of atoms, molecules, and other quantum systems.

• The Navier-Stokes equations: The Navier-Stokes equations describe the motion of fluids, and take the form of a set of partial differential equations. They are used to calculate the behavior of fluids in a wide range of applications, from aircraft design to weather forecasting.

• Newton's second law: Newton's second law states that the force acting on an object is equal to its mass multiplied by its acceleration. This relationship can be expressed mathematically as F=ma, where F is the force, m is the mass, and a is the acceleration. This equation is fundamental to the study of mechanics and is used to analyze the behavior of physical systems ranging from pendulums to rockets.

• The Coulomb's law: Coulomb's law describes the electrostatic force between two charged particles. The force is proportional to the product of the charges and inversely proportional to the square of the distance between them. This relationship can be expressed mathematically as F=k(q1q2/r^2), where F is the force, q1 and q2 are the charges, r is the distance between them, and k is a constant known as Coulomb's constant. This equation is fundamental to the study of electromagnetism and is used to analyze the behavior of charged particles and electric fields.

9. Define model with examples of physics

In physics, a model is a simplified representation of a physical system or phenomenon.

Models can be mathematical, graphical, or physical, and are used to understand, predict, and design physical systems.

Here are a few examples of models in physics:

• The Bohr model of the atom: The Bohr model is a simplified model of the atom that depicts electrons orbiting the nucleus in discrete energy levels. This model helped to explain many of the properties of the atom, including its spectra, and was a precursor to the more accurate quantum mechanical model.

• The harmonic oscillator model: The harmonic oscillator model is a simplified model of a system that oscillates back and forth around a central point, such as a mass attached to a spring. This model is used to understand and predict the behavior of many physical systems, including vibrating molecules, atomic nuclei, and the motion of planets.

• The Ising model: The Ising model is a mathematical model that describes the behavior of magnetic systems, such as ferromagnets. It consists of a lattice of magnetic moments that interact with each other, and is used to predict the behavior of magnetic materials at different temperatures and magnetic fields.

• The standard model of particle physics: The standard model is a theoretical framework that describes the behavior of subatomic particles and the fundamental forces that govern their behavior. It consists of a set of equations and predictions that have been extensively tested through experiments and observations.

• The fluid dynamics model: The fluid dynamics model is a set of mathematical equations that describe the behavior of fluids, including their flow, pressure, and viscosity. This model is used to design and optimize fluid systems in a wide range of applications, including aircraft design, chemical engineering, and weather forecasting.

10. Define principle with the examples of physics

In physics, a principle is a fundamental idea or concept that underlies a physical theory or phenomenon.

Principles are often based on empirical observations or mathematical models, and can be used to guide the development of new theories or technologies.

Here are a few examples of principles in physics:

• The principle of conservation of energy: The principle of conservation of energy states that the total energy of a closed system remains constant over time. This principle is based on empirical observations and is a fundamental principle in the study of physics, as it governs the behavior of all physical systems. The principle is used in a wide range of applications, from designing efficient engines to understanding the behavior of the universe.

• The principle of relativity: The principle of relativity states that the laws of physics are the same for all observers moving at constant velocity relative to one another. This principle is based on the observation that the speed of light is constant for all observers, regardless of their motion. The principle of relativity is a fundamental principle of modern physics, and has led to the development of the theory of special and general relativity.

• The principle of least action: The principle of least action states that the path taken by a physical system between two points is the path that minimizes the action, where action is defined as the integral of a Lagrangian function over time. This principle is based on the observation that physical systems tend to move in ways that minimize their energy or action. The principle of least action is used in a wide range of applications, from optics to quantum mechanics.

• The uncertainty principle: The uncertainty principle states that it is impossible to simultaneously measure the position and momentum of a particle with absolute precision. This principle is based on the mathematical properties of wave functions, and is a fundamental principle of quantum mechanics. The uncertainty principle has many implications for the behavior of particles at the atomic and subatomic level, and has led to the development of new technologies, such as quantum computing.

• The principle of superposition: The principle of superposition states that when two or more waves or quantum states combine, the resulting wave or state is the sum of the individual waves or states. This principle is based on the mathematical properties of wave functions and is a fundamental principle in physics. The principle of superposition is used to describe many physical phenomena, from interference patterns in light waves to the behavior of electrons in quantum systems.

11. Define theorem with examples of physics

In physics, a theorem is a statement or proposition that has been proven to be true based on mathematical or logical reasoning.

Theorems are often derived from first principles or axioms and are used to explain or predict physical phenomena.

Here are a few examples of theorems in physics:

• Noether's theorem: Noether's theorem states that for every continuous symmetry in a physical system, there is a corresponding conserved quantity. This theorem is used in the study of classical and quantum mechanics, and has important implications for the behavior of particles and fields.

• Gauss's law: Gauss's law states that the total electric flux through any closed surface is proportional to the net electric charge enclosed within that surface. This theorem is a fundamental principle in the study of electromagnetism, and is used to calculate the electric field around charged objects.

• The central limit theorem: The central limit theorem states that the sum of a large number of independent and identically distributed random variables approaches a normal distribution, regardless of the underlying distribution of the individual variables. This theorem is used in statistical physics and helps to explain the behavior of complex systems, such as gases and fluids.

• Fourier's theorem: Fourier's theorem states that any periodic function can be represented as a sum of sine and cosine functions with specific coefficients. This theorem is used in the study of wave phenomena, such as sound and light, and helps to explain the properties of periodic signals.

• Huygens' principle: Huygens' principle states that every point on a wavefront can be considered a source of secondary spherical waves, which combine to form the overall wavefront. This theorem is used in the study of wave optics and helps to explain the behavior of light waves as they pass through different materials and interact with objects.

12. Define law with examples of physics

In physics, a law is a statement that describes a fundamental relationship or principle that is observed to be true based on repeated experiments or observations.

Laws are often expressed in mathematical or quantitative terms and can be used to make predictions about the behavior of physical systems.

Here are a few examples of laws in physics:

• Newton's laws of motion: Newton's laws of motion describe the fundamental principles that govern the behavior of objects in motion. The laws state that an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force, that the acceleration of an object is proportional to the force applied to it, and that every action has an equal and opposite reaction. These laws form the basis of classical mechanics and are used to explain the behavior of everything from projectiles to planets.

• Boyle's law: Boyle's law describes the relationship between the pressure and volume of a gas at constant temperature. The law states that the product of the pressure and volume of a gas is a constant, meaning that as the pressure on a gas increases, its volume will decrease proportionally. Boyle's law is used in the study of thermodynamics and is important in understanding the behavior of gases.

• Ohm's law: Ohm's law describes the relationship between the voltage, current, and resistance in an electrical circuit. The law states that the current flowing through a circuit is proportional to the voltage applied and inversely proportional to the resistance of the circuit. Ohm's law is used in the design and analysis of electrical circuits and is a fundamental principle in electrical engineering.

• The law of conservation of momentum: The law of conservation of momentum states that the total momentum of a closed system is conserved, meaning that the total momentum of the system before a collision or interaction is equal to the total momentum after the collision or interaction. This law is used to explain the behavior of objects in motion and is important in understanding collisions, explosions, and other physical interactions.

• The laws of thermodynamics: The laws of thermodynamics describe the fundamental principles that govern the behavior of energy and heat in physical systems. The laws state that energy cannot be created or destroyed, that the total entropy of a closed system always increases over time, and that it is impossible to reach absolute zero temperature. These laws form the basis of thermodynamics and are used in everything from the design of engines to the study of the universe.

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fumpkins · 7 years ago

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Ultimate Precision for Sensor Technology Using Qubits and Machine Learning

An synthetic atom recognized from superconducting strips of aluminum on a silicon chip can be used for the detection of electromagnetic fields. Image: Babi Brasileiro/ AaltoUniversity

There are limitations to how precisely you can determine things. Think of an X-ray image: it is most likely rather fuzzy and something just a specialist doctor can analyze appropriately. The contrast in between various tissues is rather bad however might be enhanced by longer direct exposure times, greater strength, or by taking numerous images and overlapping them. But there are substantial restrictions: human beings can securely be exposed to just a lot radiation, and imaging requires time and resources.

A reputable guideline is the so-called basic quantum limitation: the precision of the measurement scales inversely with the square root of readily available resources. In other words, the more resources– time, radiation power, variety of images, and so on– you include, the more precise your measurement will be. This will, nevertheless, just get you up until now: severe precision likewise suggests using extreme resources.

A group of scientists from Aalto University, ETH Zurich, and MIPT and Landau Institute in Moscow have actually forged ahead and developed a method to determine electromagnetic fields using a quantum system. They show a brand-new technique that integrates quantum phenomena and machine learning how to understand a magnetometer with precision beyond the basic quantum limitation.

The detection of electromagnetic fields is essential in a range of fields, from geological prospecting to imaging brain activity. The scientists think that their work is an initial step to of using quantum-enhanced techniques for sensor technology.

‘We wanted to design a highly efficient but minimally invasive measurement technique. Imagine, for example, extremely sensitive samples: we have to either use as low intensities as possible to observe the samples or push the measurement time to a minimum,’ describes SorinParaoanu, leader of the Kvantti research study group at Aalto University.

Their paper, released in the prominent journal npj Quantum Information demonstrates how to enhance the precision of electromagnetic field measurements by making use of the coherence of a superconducting synthetic atom, a qubit. It is a small gadget made from overlapping strips of aluminium vaporized on a silicon chip– a technology just like the one utilized to make the processors of smart phones and computer systems.

When the gadget is cooled to a really low temperature level, magic takes place: the electrical present circulations in it with no resistance and begins to show quantum mechanical homes just like those of genuine atoms. When irradiated with a microwave pulse– not unlike the ones in home microwave– the state of the synthetic atom modifications. It ends up that this modification depends upon the external electromagnetic field used: determine the atom and you will find out the electromagnetic field.

But to exceed the basic quantum limitation, yet another technique needed to be carried out using a strategy just like a widely-applied branch of artificial intelligence, pattern acknowledgment.

‘We use an adaptive technique: first, we perform a measurement, and then, depending on the result, we let our pattern recognition algorithm decide how to change a control parameter in the next step in order to achieve the fastest estimation of the magnetic field,’ describes AndreyLebedev, matching author from ETH Zurich, now at MIPT in Moscow.

‘This is a nice example of quantum technology at work: by combining a quantum phenomenon with a measurement technique based on supervised machine learning, we can enhance the sensitivity of magnetic field detectors to a realm that clearly breaks the standard quantum limit,’Lebedev states.

Source: AaltoUniversity

New post published on: https://livescience.tech/2018/07/04/ultimate-precision-for-sensor-technology-using-qubits-and-machine-learning/

#Learning #Machine #Precision #Qubits #Sensor #Technology #Ultimate

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megacircuit9universe · 6 years ago

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Universal Telepathy (and why it sucks)

2019 JUL 14

Carl Jung first suggested the idea of a collective unconscious... as a scientific explanation for the weird phenomenon of ancient civilizations, too far apart in space to communicate, coming up with nearly identical myths, inventions, and architecture at around the same time.

It was never taken very seriously because nobody in Jung’s time could explain how such a thing could work, in terms of physics. How could human brains on opposite sides of the globe be able to access one another’s ideas?

It just felt like something in the realm of religion or pseudo science.

Still, as the 20th century marched forward, and turned into the 21st, the question of consciousness itself has continued to be a nagging mystery that science has yet to explain in any satisfactory way.

Still, we know consciousness is real... and that it’s a thing that developed through the process of evolution... just as did it’s components, such as, say, vision.

Living beings have evolved photon receptors because... we live in an environment bathed in photons coming from the sun. A creature with no eyes would not know this, but one with even primitive cells that could detect photons and relay that information to a central brain would know photons exist, and could use that knowledge to their advantage.

The same is true for ears... because we live in an atmosphere full of acoustical sound waves.

Chemical detectors, of course are all over the place in nature. Plants, insects, and mammals alike depend very heavily on their specialized chemical detectors... as well as chemical signal generators.

But some animals have senses we can’t imagine, such as many species of birds, who can “see” the Earth’s magnetic field, and use it for flight navigation across enormous distances. Also various fish, such as sharks, who can “see” electrical and magnetic fields in their environment.

But all of these senses are fine tuned to detect extremely weak signals, and creatures can do this because biology itself is made of such extremely tiny building blocks, and runs on such extremely low voltage.

In fact, scientists now believe that in many cases, biological sense organs are taking advantage of truly quantum phenomena... and why not?

This brings us to the brain... which even in insects like bees, have astounding levels of processing power. Flight navigation, after all, is no simple trick, but remembering how you found your way to a specific flower patch, and then being able to communicate those directions to your bee colleagues using an abstracted dance... is really impressive!

So, how much more impressive is the human brain, which is the latest and most advanced brain ever developed by natural selection?

My hypothesis is that the human brain (and probably many other less sophisticated brains) is able to interact on the quantum level with some type of field surrounding the Earth... using it for storage and retrieval of information.

In this model, your memories are not stored in your brain, and your thoughts do not originate in your brain either. Both exist out in this field, and are simply accessed by your brain the way a transistor radio would access a radio station, or a smart phone would access encoded data in the cloud.

But for most of the 20th century, it was thought no such field could exist... until we discovered dark matter.

Though we don’t yet know exactly what dark matter is... we do know that there’s far more of it permeating the galaxy than normal baryonic matter... because we can see it’s weak gravitational interaction with normal matter on the large scale.

Dark matter does permeate the room you’re in right now... along with every square inch of the Earth, solar system, and beyond.

My hypothesis is that our brains have evolved to interact with dark matter in some very subtle, yet critical way that allows us to experience not only individual consciousness... but to also share a collective, global unconscious.

One intriguing clue to support this may be the enigmatic double slit experiment.

In this famous experiment, you have a photon gun, a back wall to receive the photons, and a barrier or screen in the middle with two small slits. If you shoot a multitude of photons at the barrier, some will pass through the slits and hit the back wall.. creating a wave interference pattern over time.

However, if you make any attempt to determine which of the two slits each photon passes through... say by setting up detectors at the two slits that will report the results to you... suddenly the back wall no longer displays a wave interference pattern, but instead, two concentrated blobs corresponding to the two slits.

The obvious conclusion... which quantum physicists hate, but cannot rule out, is that human consciousness itself, affects the behavior of the photons.

Clearly that’s not possible if consciousness is a thing happening inside of tightly sealed human skulls. Knowing... or even asking which slit a photon goes through should not change the results of the experiment... especially not so drastically.

But it is possible... and even logical, if consciousness arises from the brain interacting with a field through which the photons are passing... namely the dark matter field.

It’s tempting to think that this interaction must be electromagnetic... given that brains are electrical, and photons are quanta of electromagnetism. But we have no evidence for dark matter interacting electromagnetically... only gravitationally.

Our understanding of quantum gravity is... nearly nonexistent, so it’s difficult to say how a brain might be able to utilize quantum gravity... if at all.

Whatever the case, if the brain is using the dark matter field to store information... that same mechanism will tend to collapse the wave functions of photons (and other quantum particles) being asked for information.

Physicists in fact will tell you that information itself is a kind of property in the universe that cannot be destroyed, but only shifted around. So... for our brains to store any... we have to take it, and put it somewhere we can find it later.

If this cloud theory of consciousness is true, however, then it works best on the level of the individual brain.

For example, I can remember experiences I had thirty years ago fairly vividly, and fairly accurately, depending on how memorable they were to begin with.

But you can spend all day with your head touching mine, trying very hard to tune in to my memories and... not get anything.

However... if you and I were very similar in some key way, you might be able to gain access to my records.

I know this will sound like a reach, but, sex kinks tend to bear this out a bit.

We all know about the internet’s famous Rule 34, which says, if it exists, there is porn of it.

That rule was always true, from the beginning of human history, but we did not know it was true until the advent of the internet, when people began sharing their extremely specific and bizarre fetish art and writing online... only to overnight connect with large numbers of other people who had the same kink... down to the same images, same scenarios, and same buzzwords.

In a very real way, people who share the same obscure niche sex kink, do share the same unconscious and conscious fantasies, in very striking detail, even if they are never in communication with one another.

That could just be the result of everybody in the group having the same wiring anomaly in their brains, causing the same symptoms.

Or... it could mean that people who are wired similarly enough on the channels that have the real signal strength... the sex drive, or the obsession for art, music, architecture, etc... are able to tune-in to one another’s thoughts and impressions.

The general rule of brain storage is that the strongest memories are the most emotional, either positive or negative... or the most significant, in terms of useful information.

Expanding outside the individual, like minds have like thoughts. It’s true for people with the same kink... but it’s also generally true in the sense that... all squirrels will think like squirrels and not like birds. All birds will think like birds and not like bees. Etc.

But on the grandest scale... all conscious creatures will think and behave in some very basic ways that all other conscious creatures will understand.

I once had an underground beehive in my back yard. The bees had set up their hive in a hole in the ground. This was not a problem until I had to mow the lawn. After I did this once, the bees were not happy. A week later, when I got the mower back out... the bees attacked my dog, who was hanging around with me in the yard.

I had not yet turned on the mower.

The bees did not do too much damage to my dog (thanks to his thick fur) but they gave him a good scare, such that he ran off into the house.

As for me... I got the message very clearly, as if they’d spoken it to me in English, “Do you see what is happening to your friend there? That is you... if you mow over our hive again. Got it!”

I gave their hive a wide berth that day and they didn’t attack me. We had an understanding after that.

That’s an example of how all conscious creatures do understand all other conscious creatures. But it’s also an example of how information is normally exchanged between conscious creatures who are not exactly the same.

99.9% of the time, external, real time communication is needed to exchange information from one conscious creature to another. In the case of the bees, this was contextual communication.

The context is... I have lawn mower. Dog is my friend. Dog gets the business. Dog is me, if I use lawn mower on them.

But among themselves, even bees need to use symbolic communication. The waggle dance they use is partly contextual, because it references the current location of the sun, but it is also largely symbolic, with waggles standing in for units of distance.

And even though human brains are far more sophisticated than those of bees, we still do not have telepathy. We rely very heavily on symbolic communication to share information from one brain to another... and even with our very advanced forms of communication... misunderstanding is rampant.

So... even if there is such a thing as a collective unconscious... there is a reason it is unconscious. It’s because the dark matter field our brains use to store and retrieve information for individual brains is so extremely weak and delicate, that it can’t sustain a universal telepathy.

by, “universal,” I mean... a robust telepathy capable of transferring detailed information between all kinds of different brains, no matter how different they are.

The laws of physics do not and cannot support universal telepathy.

But... they do seem to be able to handle a very low level telepathy that can transfer information directly from one brain to another... if the two brains are sufficiently similar... and if the signal is sufficiently strong.

This means it should be possible to simply meditate and, by tuning in with the universe, elevate the collective consciousness of all human kind.

Is that a more effective approach than going online and blasting everybody with extremely emotional symbolic communication when they’re awake?

Erm... on the short term no.

However, over the long game... the very long game... collective unconscious may prove to have the edge.

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sbnkalny · 5 years ago

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Noise,

#QUOTE #DAY 8 #Example sources include measuring Atmospheric noise #Thermal noise #And other external electromagnetic and quantum phenomena

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arxt1 · 5 years ago

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Thermodynamic equilibrium of massless fermions with vorticity, chirality and magnetic field. (arXiv:2004.08186v1 [hep-th])

The present thesis aimed to examine the effects of vorticity on the thermodynamics of relativistic quantum systems. We extend the Zubarev's non-equilibrium statistical operator method to address quantum effects induced by vorticity in the presence of chiral matter and external electromagnetic field and keeping full covariant and quantum properties of the system. To investigate the effects of vorticity, this work has been focused on systems consisting of massless chiral fermions. We recovered the significant quantum phenomena known in the literature, namely the chiral magnetic effect, the chiral vortical effect, the axial vortical effect and the chiral separation effect and we also revealed the presence of additional effects at second-order on thermal vorticity. This study has also identified and presented the exact solutions of thermal states for a system at global thermal equilibrium consisting of chiral massless fermions under the action of an external constant homogeneous magnetic field. Taking advantage of these exact solutions and conservation equations, the study also proved that the thermal coefficients related to first-order effects on thermal vorticity do not receive corrections from the external electromagnetic field. The same argument revealed existing relations between those thermal coefficients, even connecting coefficients related to vorticity to other related to electromagnetic field. For instance, this analysis has found that the chiral vortical effect and the chiral magnetic effect conductivities are connected one to the other by a differential equation. Therefore, this research provides the first steps into deriving the relations between the effects and the interplay of electromagnetic fields and vorticity.

from gr-qc updates on arXiv.org https://ift.tt/2Vmqr79

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an-pandey-posts-blog · 6 years ago

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Need of common platform for Scientists and Spiritual masters (Yogi) to reveal the unknown of the universe

On the eve of International Yoga Day (on 21st June), the article on “Need of common platform for Scientist and Spiritual masters (Yogi) to reveal the unknown of the universe” is being published. In this connection, the analyses like i) Advantage of Common platform ii) The utility of meditation for scientist iii) Field of research in common platform and the same have been elaborated. As the scientists need “Intuitive Approach” to know the unknown from the universe, the importance of meditation in Yoga is also explored. The paper reveals the eight fundamental achievements of science namely i) Pythagorean Theorem ii) Newton’s Theory iii) Differential calculus (Maxwell’s) iv) Thermodynamics v) Schrodinger’s concept vi) Information theory vii) Einstein’s Theory or Quantum theory viii) Radio activities. They (eight achievements of Science) are compared with the facts mentioned in Veda, Upanishad and Bhagvad Gita. The spiritual facts are hidden in the inner core of human being, and the same requires the exploration with the help of meditation.

There is an appeal to the readers of scientific as well as spiritual communities to comment (if any) with explanation or reasoning so that the paper could be build up for better utility of the human beings.

Abstract

Science explores the functional aspects of Nature (Prakriti) with the help of external laboratory; whereas Yoga explores the functional aspects of Nature (Prakriti) inside Human being. The comparison between scientific approach and findings of yogic approach has to be explored for the benefit of both (Scientist and Spiritual master) as they are trying to explore “The Real or The Absolute” in universe by one taking the external nature prevailing in the universe and another taking the Human nature prevailing inside human system.

Swami Vivekananda during his tour to the western world (after the world parliament speech on religion) was trying to show a common platform for the scientist as well as for the spiritual masters (especially for the Yogi and meditator) where both can exchange their result so that the world can enjoy the best possible result of Science and Yoga. Presently, some of the organizations like www.svyasa.edu.in, www.yogicconcepts.in and few other prestigious institutions like Bihar School of Yoga, Kaivalya Dham and Patanjali are working hard to establish the common platform for the exchange of views among the scientists and the Yogi.

In this connection, the facts like “What is Real in Science and Yoga?”; “what are the Parallel in Science and Yoga?” and “what are the achievements in Science and Yoga?” are to be brought for diving deep in respective subjects while discovering the unknown.

Advantage of Common platform is many for both (Scientist and Spiritual Masters). For example, in the knowledge of Common people, the utility of electron (fundamental particle) is many. Electrons are involved in many applications such as electronics, welding, cathode ray tubes, electron microscopes, radiation therapy, lasers, gaseous ionization detectors and particle accelerators. Likewise, other fundamental particles are also used in day-to-day life directly or indirectly but not known to the common mass. Similar kind of hidden knowledge related to these fundamental particles is available in Veda, Upanishad and Bhagvad Gita; which are also not know to the common mass. Yoga helps to reveal the same.

In the field of Yoga, the advantage of Pranayama and meditation to achieve “intuitive capability” as an added means to many Researchers (Scientists and Yogi).The research fields in Yoga are i) Health ii) Core management iii) What Yoga does to keep us in Present iv) Supramental Approach to unknown. The common platform will help to discuss, review and make a new hypothesis based on the knowledge derived in science and spirituality (Yoga). The Highest advantage of meditation is “Intuition capability”; which certainly helps in “Discovery” of “unknown” or mystery of the universe. The concentration, which scientist are able to do to the extent possible, the same will help to blossom them (scientist) to achieve “Inspirational Dimensions”, which are helpful to “investigate” the hidden aspects of universe.

The research fields are many but let us concentrate on certain fields namely i) Pythagorean Theorem ii) Newton’s Theory iii) Differential calculus (Maxwell’s) iv) Thermodynamics v) Schrodinger’s concept vi) Information theory vii) Einstein’s Theory or Quantum theory viii) Radio activities. Likewise, there are many theories or concepts mentioned in Veda, Upanishad, and Bhagvad Gita and even in Hanuman Chalisa; which are equivalent to the concepts established by Scientists (mentioned above).

1. Introduction:

Science explores the functional aspects of Nature (Prakriti) with the help of external laboratory; perceiving the facts with the help of measuring instruments like high quality electron microscope, telescope and footprints in cyclotrons or in colliders (underground tunnel); providing the utility of scientific achievements in three dimensions in the form of different material (matter). Since 200 years ago (especially in 20th century), the scientific achievement for the utility of Human being has to be applauded. Similarly, Yogic achievements where Yoga explores the functional aspects of Nature (Prakriti) inside Human being with the help of internal laboratory (Human Body); perceiving the facts by measuring instruments like Bio Plasmic force or flow, Different types of Brain wave and footprints in terms of feeling, experiencing, perseverance and awareness. By which, Yogi provides the benefits of his experience in terms of good health, courage, confidence, concentration, creative nature and intuitive aspects in human system.

The comparison between scientific approach and findings of yogic approach has to be explored for the benefit of both (Scientist and Spiritual master). The Comparison does not mean to show the superiority of science on yoga or vice versa. This is because, both (scientist and Yogi) are trying to explore “The Real” in universe by one taking the external nature prevailing in the universe and another taking the Human nature prevailing inside human system. It has been observed that the Human body is the replica of the universe. That’s why, human system is known as Microcosm and scientific approach is termed as Macrocosm.

Swami Vivekananda during his tour to the western world (after the world parliament speech on religion in Chicago) was trying to show a common platform for the scientist as well as for the spiritual masters (especially for the Yogi and meditator) where both can exchange their result so that the world can enjoy the best possible result of Science and Yoga. However, the same could not get materialized in actual practice. Presently, some of the organizations like www.svyasa.edu.in, www.yogicconcepts.in and few other prestigious institutions like Bihar School of Yoga, Kaivalya Dham and Patanjali and few more are working hard to establish the common platform for the exchange of views among the scientists and the Yogi. In this connection, the facts like “What is Real in Science and Yoga?”; “what are the Parallel in Science and Yoga?” and “what are the achievements in Science and Yoga?” are to be brought for diving deep in respective subjects while discovering the unknown. The common platform will help to discuss, review and make a new hypothesis based on the knowledge derived in science and spirituality (Yoga).

2. Advantage of Common platform

Application of Quantum and Particle Physics are many. Fundamental particles like Photon, Proton, Neutron, Electron and Neutrino play a vital role while formation of forces and four force carriers. The details are well known to the scientists but the same are also known by the yogi science inception of the universe; which has been endorsed by the Veda, Upanishad, Brahm sutra and Bhagvad Gita. One among them is electron which is widely known by the common people. Electrons play an essential role in numerous physical phenomena, such as electricity, magnetism, chemistry and thermal conductivity, and they also participate in gravitational, electromagnetic and weak interactions. Since an electron has charge, it has a surrounding electric field, and if that electron is moving relative to an observer, it will generate a magnetic field. Electromagnetic fields produced from other sources will affect the motion of an electron according to the Lorentz force law.

Electrons are involved in many applications such as electronics, welding, cathode ray tubes, electron microscopes, radiation therapy, lasers, gaseous ionization detectors and particle accelerators.

Likewise, other fundamental particles are also used in day-to-day life directly or indirectly but not known to the common mass. Similar kind of hidden knowledge related to these fundamental particles is available in Veda, Upanishad and Bhagvad Gita. Yoga helps to reveal the same.

Advantage of Pranayama and meditation helps to achieve “intuitive capability” as an added means to many Researchers (Scientists and Yogi).

The research fields in Yoga are i) Health ii) Core management iii) What Yoga does to keep us in Present (Anchoring us to work or act in present movement) iv) Supramental Approach to unknown ( Spiritual capability to discover the universe).

Many fields where “joint venture” are necessary are, “What is Real in Science and Yoga?”; “what are the Parallel in Science and Yoga?” and “what are the achievements in Science and Yoga?” are to be brought for diving deep in respective subjects while discovering the unknown. The common platform will help to discuss, review and make a new hypothesis based on the knowledge derived in science and spirituality (Yoga).

3. The utility of meditation for scientists

The Highest advantage of meditation is “Intuition” capability; which certainly helps in “Discovery” of “unknown” or mystery of the universe.

The concentration, which scientist are able to do to the extent possible, which blossom them (scientist) to achieve “Inspirational Dimensions”, which are helpful to “investigate” the hidden aspects of universe. But scientists certainly need to have more Intuition to discover or reveals the unknown.

4. Field of research in common platform

The intensive subjects for research in Science and Yoga could be in the field of i) Pythagorean Theorem ii) Newton’s Theory iii) differential calculus (Maxwell’s) iv) Thermodynamics v) Schrodinger’s concept vi) Information theory vii) Einstein’s Theory or Quantum theory viii) Radio activities

Science has already established the concepts and utility of these subjects directly or indirectly for common people. Likewise, there are many theories or concepts mentioned in Veda, Upanishad, Bhagvad Gita and even in Hanuman Chalisa; which are equivalent to the concepts established by Scientists (mentioned above). Both (Scientists and Spiritual master or Yogi) have to understand the findings of each other so that any correction (if required) could be implemented to achieve the best possible facts of the universe.

5. Brief research on eight achievements of Science and Yoga

Preliminary research about eight fields reveals the following

i. PYTHAGOREAN THEOREM

The image “Pythagorean theorem” describes briefly describes the achievement of Science and yoga. The ancient theorem, first recorded between 570-495 BC is a fundamental principle in Euclidean Geometry, and the basis for the definition of distance between two points. Pythagoras's theorem also describes the relationship between the sides of the right triangle on a flat plane.

Pythagorean Theorem was discovered about 2500 years ago whereas; concept of meditation was established since Human inception (as mentioned in Satya Yuga or starting of Human life). Since then Yogi have discovered many things and uses the equilibrium geometry during meditation making holism among “Energy (Prana), Space (Mind) and consciousness (Chetana)”. Yogi also uses the same concept while transforming one chakra to another in Bahirang Yoga and also by finding distance in psychic tunnel in Antarang Yoga; which is also performed in meditation.

Utilization of Pythagorean Theorem by yogi:

Pythagorean Theorem is used in meditation when spine is supposed to be at 90 degree with respect to base of sitting posture. This Posture is must to have easy flow of energy in Ida and Pingla path. Higher aspect of Pythagorean Theorem is required when meditation is performed.

Human body is a complex geometry; but Yogi knows how to make the same simple by using three paths (Ida, Pingla and Sushumna). The energy (bio-plasmic force), space (mind) and consciousness (Chetna) are regulated to have harmoniously balanced state in these paths. The concept of Pythagoras theorem is used by a yogi while performing Asna, Pranayama and meditation. The posture designed for Asna, Pranayama and also the sitting posture adopted in meditation are made perfect by utilizing the scientific concept.

ii. NEWTON’S LAW ENDORSES PURIFICATIONS ASPECTS OF YOGI

The image “Utility of Newton’s Law of Universal Force by a Yogi through Bio-plasmic (Prana) form” briefly describes the achievement related to Science and Yoga.

Newton’s law explains why the planets move the way they do, and how gravity works, both on earth and throughout the universe. First published in the principia in July 1687, the law of gravitation was the defacto reference equation for nearly 200 years until Einstein's Theory of General relativity replaced it.

In universe, planets are moving and gravitational force is also working. Human beings are replica of the universe. In physiology, human organs are functioning under Apana Prana reflecting gravitational force of the universe. Yogi makes use of Apana Prana in such a way so that human system, organs, tissues and cells are functioning in the best possible efficiency to make them free from any disturbances and diseases. The utility of Apana Prana (Gravitational force in human system) is best known to the Yogi. Apana Prana (gravitational force) has limitation till energy (bio-plasmic force) and space (mind) are gross. When energy and space become subtle in the form of wave, Apana Prana helps them to get strengthened.

Apana Prana in human system works as gravitational force. Other organs of the body functions reflect the movement of the planet in space (universe) connecting through upper part of human body. Apana Prana works like gravitational force in body which drags upper Prana, specially Samana Prana (used for digestive system of body).When Samana Prana becomes weak people have poor digestive system and will be unable to maintain natural health. Apana Prana in required amount is needed for excretory system. Newton concept helps to purify and maintain Apana Prana with the help of different bandha used in yoga.

The law of “Action & Reaction” is changed in Meditation

“Newton’s law of action & reaction” is very famous law. Undoubtedly, this is nature’s law and is applicable till we remain under the grip of the nature. However, yogi changes this law and creates reaction (the result or fruit of action) into inaction (Akarma). This is possible only in yoga but not in science. How? Every action provides reaction as per nature’s law (endorsed by Newton).

The analysis shows that in yoga, we go to the backbone of action which is prana & the same is expanded in such a way that action loses its grip & the mind gets expanded as Chitta. When this is achieved (expansion of mind as Chitta or mind stuff in meditation), the fruit of action (in terms of reaction) gets erased. Though, the action is done but reaction of its result is not questioned. This is because, the mind is expanded into Chitta or mind stuff. This could be made clear by the example of devastating river, storm (hard windblown during devastation) & the hot scorching sun; when they do the action (seems to be cruel in nature) but not accounted for reaction after action. In meditation, this kind of scenario is achieved by expansion of mind in the field of Chitta & further dissolving the Chitta in self (Atman).

iii. DIFFERENTIAL CALCULUS (MAXWELL’S THEOREM)

The calculation shown is the definition of the derivative in differential calculus, one of calculus's two major branches. The derivatives measures the rate at which a quantity is changing. For example, if we are walking 2Km an hour, then we will change our position by 2Km every hour. During 1687, Newton used calculus to develop his law of motion and Gravitation.

The image “Maxwell’s Equation” briefly describes the achievement related to Science and Yoga. Maxwell's equations are a set of coupled partial differential equations that, together with the Lorentz force law, form the foundation of classical electromagnetism, classical optics, and electric circuit. Maxwell's equations describe how electric and magnetic fields are generated by charges, currents and changes of the fields. The important consequence of the equations is that they demonstrate how fluctuating electric and magnetic fields propagate at a constant speed (c) in the vacuum, the “speed of light"; which is known as electromagnetic radiation, these waves may occur at various wavelengths to produce a spectrum from radio waves to γ-rays (gamma rays).

In Pranayama and meditation, How electric, magnetic and optical fields are generated by Yogi using charges (Mind), currents (Prana or Bio plasmic), and changes of the fields (Consciousness or Chetana) is an interesting phenomena. Yogi also knows how fluctuating electric and magnetic fields (Pure form of EMF) propagate at a constant speed (c) in the vacuum, (psychic tunnel) and obtains the “speed of light“at the time of Self realization (”Atmadarshan”) during deep meditation. At the higher stage of meditation, Yogi does the colliding approach between matter (of particle in nature) and anti matter (virtual particle in nature) to obtain the gamma rays so that the quantum possibilities could be achieved. These aspects are described in meditation.

Conceptual utility of Maxwell theorem in yoga:

The practice of different mudra reveals approach for invention which is similar to the classical electromagnetism. The scientific classical electromagnetism reveals the invention aspect of mind; whereas classical mechanism (based on Newton’s concept) reveals the different approaches for invention of the four forces (Apana, Samana, Yana and Udana Prana working in the body). The classical mechanism is performed with the help of different Pranayama by Yogi.

Establishment of Maxwell’s concept by yogi:

Maxwell’s theorem is widely used in meditation by yogi while evolution. In the process of self realization, yogi uses Maxwell equation while converting different forces (gravitational, a strong nuclear, weak nuclear and electromagnetic forces) into magnetic form. He or she, while uplifting them through spinal cord, brings the electromagnetic nature of the forces at the centre point between two eyebrows. The scientific law is used in Maha mudra, Khechari mudra and Yoni mudra which works as a catalyst for meditation.

iv. THERMODYNAMICS

Yogi uses this concept while experiencing the reduction of quantum energy. There is a process when quantum reduction takes place while energy flow happens from quantum domain (higher strata) to unconscious and conscious domain (lower strata).

Yogi experiences the less useful energy at lower strata or at lower Chakra of the body. For instance, energy below Manipur chakra (Navel centre) is unconscious and involunteer; whereas energy and space at higher chakra (say at heart chakra or Anahata chakra and above) is very useful for dynamic and vibrant personality.

The image “The Second law of thermo dynamics” briefly describes the achievement related to Science and Yoga. Rudolf Clausius’s law states that energy always flows from higher to lower concentration. It also states that whenever energy changes or moves, it becomes less useful. Formulated in 1865, it led to the development of technologies like inter combustion engines, Cryogenics and electricity generation

This fact (related to thermodynamics) is observed by Yogi and because of which Yogi has visualized different Prana (Vyana, Udana, Apana, Samana, Prana) in different field in combination with different particles. During establishment of Prana flow, the highest and purest form of EMF becomes crude till Prana becomes Apana Prana. However, Yogi finds every kind of energy more useful while evolution or quantum possibilities from matter to the highest source (consciousness).

Yogi uses this scientific principle with the help of different bandha like i) Moola bandha ii) Uddiyan bandha and iii) Jalandhar bandha; along with different Mudras like i) Maha mudra ii) Yoni mudra iii) Shambhavi mudra and iv) Kesari mudra so that harmoniously balanced effect is obtained on energy (prana) & space (mind). The bandha and mudra is a catalyst for deep meditation.

v. SCHRÖDINGER’S EQUATION

This equation describes how the quantum state of a quantum system changes with time. Developed by Australian physicist Erwin Schrodinger in 1926, it governs the behaviour of atoms and subatomic particles in quantum mechanics. Schrodinger’s equation paved the way for nuclear power, microchips, electron microscope and Quantum computing.

Yogi visualizes that how the process of cosmic dust, atomic particle and formation of electron, proton and neutron take place in the universe with time. The reversal process (while evolution process) also reveals the unification of nuclear configuration while Yogi is in deep meditation. This process is also described in Veda (the ancient wisdom of India). Veda describes the atomic particle wide it’s versus mentioned in rig Veda; where atomic particles are named as i) Mitra

(equivalent to electron) ii) Varuna (equivalent to proton) and iii) Aryama (equivalent to neutron). Veda describes the formation of atoms (basic building block), molecules, cellular mechanism, formation of brain and consciousness (Chetna) in different names. This indicates that atomic science presently discovered by the modern physicist is only the invention. This is because the discovery of the same has been mentioned in Veda since thousands of centuries ago.

The image “Schrodinger’s Equation” briefly describes the achievement related to Science and Yoga. The concept of quantum mechanics related to atoms and subatomic particles is also perceived by the Yogi in the process of meditation. Through deep meditation, Yogi utilizes atomic and subatomic concepts for Construction energy required for materialistic world and energy for invention by exploring the hidden potential available within. Yogi also uses the creative or discovery energy obtained by intuition in deep meditation for knowing the unknown.

Quantum system changes with Time are known as downward causation in quantum physics. To my (Author’s) knowledge, the downward causation is not yet fully explored by the science because of many paradigm of scientific concept are not yet resolved and answered clearly. In Yoga, especially in meditation, the upward causation (quantum possibilities or material causation) of science is known as “Evolution”; and downward causation (consciousness reduction) of science is known as “Manifestation” in meditation. In deep meditation, the Yogi answers most of the paradigm of science as fully evolved. He is capable of visualizing the whole universe with Intuitive (Pragya) capability during upward causation. In downward causation, the exploration of quantized energy is obtained where end product is the material (composed of Panch Mahabhootha). The meditation provides the best possible answers dealt with quantum as well as particle physics.

vi. INFORMATION THEORY

Information theory is a branch of mathematics that studies the coding of information in the form of equation of symbols, and the speed at which that information can be transmitted. Applications of topics within information theory include data compression and channel coding. Research in the field was also instrumented in the development of the internet and mobile phones.

Yogi uses the scientific information theory while making the connectivity between brain neurons and stars of the universe. The same is also used in cellular biological mechanism where the information is transmitted between body cells and the brain.

The information theory adopted in yoga is very helpful to diagnose and activate the corrective measures against germs and viruses acting on physiology, biology, cellular mechanism and also on DNA level.

Any viral attack at core (DNA or cell) level is processed and also gets repaired or corrected if one adopts the Yogic process like Pranayama and meditation; which in term, transmit the “Gyanagni” (special type of fire) to eliminate the viruses. The information coding is being exchanged between nuclei (surrounded by DNA and genes) and brain cells. Because of rapid information exchange and repaired mechanism followed, the yogi remains hail and healthy for long and live for more than hundred years without any problem.

The image “Information Theory” briefly describes the achievement related to Science and Yoga. Human body (microcosm) is the replica of universe (macrocosm) but the same cannot contain the information existing in the universe. Yogi has developed spiritual information theory by activating and connecting the brain neurons with the stars of galaxy and obtains the unknown facts through “Intuition”. By this way, yogi is able to discover many unknown information of the universe with the help of higher stage of meditation using intuition as the same (intuition) provides the truth

vii. EINSTEIN

The creation happens because of causation, time and space of the Absolute. This is known as manifestation of the subtlest substances (real). Reversal of the process of manifestation is known as Evolution; where time and space are eliminated .The quanta (eternal and infinite form of energy) could be obtained as the reduction of the same (quantum energy) in time and space is minimized or eliminated. The concept of quantum is well known to the Yogi which is being utilized at the time of meditation since thousands of years ago. This (evolution process) is similar to the concept of Einstein for obtaining the purest form of energy by his equation. Yogi uses the concept of relative evolution (similar to theory of relativity) when he or she is in lower stage of meditation at Agna Chakra and also at third eye where the energy is separated from space (mind) and kept for utility.

This kind of energy is known as third eye which has got three distinct ways of working like i) Extrovert (Downward) movement ii) Approaching to self (Atman) iii) Having quantum gems to reach the source (consciousness). The space which is also separated and the same evolve through Supramental range. Subtle form of mind (space) is withdrawn from the extrovert nature of the senses and expanded in deep sleep meditation. However, in meditation Yogi uses the quanta concept in real sense.

Einstein’s most famous undertaking is the generally accepted theory on the relationship between Space and time. First proposed in 1905, the theory of Relativity has both radically altered the course of physics, and deepened our knowledge of the universe’s past, present and future.

The image “Albert Einstein’s Theory of Relativity and its use by a Yogi in Meditation” briefly describes the achievement related to Science and Yoga. In deeper aspect of meditation, the space (mind) becomes much enlarged. By which mind (space) becomes mind stuff and time phenomena stops or become stand still as energy becomes pure one. Einstein concept is used in deep meditation where discovery aspect of energy (intuition) characteristic is grown. The functional aspect of Einstein is better used in meditation process; where yogi turns extrovert energy into introvert one. Extrovert energy is used for material construction; whereas, introvert energy is used for invention of inner hidden aspect.

Continuum as paradigm of modern Physics gets clarity in Yoga

Physics now gone to the extent of realizing that there is a continuum which is the ultimate reality of the universe, and it is not physical or solid in its nature. How is it possible? The analysis reveals that -- Solid can be converted into Liquid; Liquid can be converted into gases; Gases can be converted into the energy, and energy is not located in any particular place. Energy is not localized movement (non-locality); it is a continuum i.e., non special and non temporal.

This is a subject in modern physics which practically takes us to the conclusion of the Upanishads and Gita that “all action is a cosmic action”. This means that action is carried out because of continuum of Prana. When yogi evolves, he or she finally gets continuity of energy (surplus form) and the same is obtained during meditation. Yogi provides the name of third eye opening which indicates the continuum (non locality) of Prana. Though, non-locality of energy is a paradigm of physics, the yogi resolves this paradigm and makes the practitioner of meditation understand the continuum process.

viii) RADIO ACTIVITIES

Radioactivity is the bane against development of nuclear energy (boon of the scientific development). However, Yogi perceives the radioactivity in favour of realizing the absolute (god). In doing so, the yogi gets connected to the radioactive substances like alpha, beta, gamma and black matter of the universe (macro) through brain neurons (micro). When connectivity is established between brain neurons and the stars of the universe (which are beyond galaxy), yogi picks up advantageous aspects of each particle and make use of the same as helping hand for further evolution and realization.

Yogi makes use of both (alpha and beta decay) happening in the universe and make use of the same for changing the original defective nuclei into another favorable nuclei of the chemical element. Likewise, Yogi makes use of the gamma decay for generating more photon in two ways. In human system we do have a strong nuclear force existing at heart centre and weak nuclear force at throat centre. The yogi makes use of the gamma decay of these two forces by generating the photon (light) to the extent possible without changing the chemical behaviour. Another way, yogi makes use of gamma rays of the universal energy available around the stars. At the time of meditation, Yogi strengthens the generation of photon (enlightened god particles). Adopting this method the infinite and eternal photon (the absolute or god) is realized by the yogi.

Fully evolved yogi like Hanuman ji, Patanjali, kapila muni, gorakh nath, matshyendra nath, Yogananda, Swami Vivekananda including Lord Buddha has clear clarity about dark matter. However yogi evolves adopting a particular channel or methodology might not get clarity about dark matter. This shows that when all parts of the brain is enlightened with the supreme reality (photon); the clarity about a dark matter will be obtained. This needs very high stage of meditation like “Psychic death meditation”. Yogi also perceives the expansion of universe because of dark matter and dark energy. However, this subject is not unknown for fully

The image “Radio Activity” briefly describes the achievements obtained by Science and Yoga. Radioactive decay transforms a nucleus by emitting different particles. In Alpha decay, the nucleus releases a 2H nucleus, an Alpha particle. In Beta decay, the Nucleus either emits an electron and Antineutrino (or a positron and Neutrino) or captures an atomic electron and emits a Neutrino. A Positron is the name for the antiparticle for the electron. Antimatter is composed of anti-particles. Both Alpha and Beta decays change the original nucleus into a nucleus of a different chemical element. In gamma decay, the nucleus lowers its internal energy by emitting a photon, a gamma ray. This decay does not modify the chemical properties of the Atom.

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iridologycamera-blog · 7 years ago

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diacom 9d : what it ,what price how diacom 9d work

What is diacom 9d?

SNG-9D 9D-NLS is a state-of-the-art diagnostic and treatment device with the latest software version, in English and in Romanian. It is part of the NLS (nonlinear analyis system) analyzer using magnetic biorezonance. It has an improved software version versus the 3D-NLS model. It provides a more accurate diagnosis on multiple planes including the aura. The functions of magnetic biorezonance diagnosis and energy rebalancing therapy have been improved.

SNG-9D The device can be used by anyone with basic medical knowledge, especially for those involved in diagnosis activities: family doctors, school / educational establishments, sports centers, fitness halls, recovery / physiotherapy centers, cosmetic salons, spa units. Last but not least, it can also be a home machine for your family. SOFTWARE: SNG-9D comes with CD software with ROMANA and ENGLEZA software.

HOW diacom 9d WORK?

Design and operation principleOperation principles of “9d nls system” system which belong to “brain machines” class are based on fundamentals of Nesterov – Van Hoven quantum entropy logic theory. According to quantum entropy logic theory informational exchange between systems is carried out distantly, associatively and selectively due to electromagnetic radiation quantum having energy equal to energy of system’s elementary structure connections destruction. Principles of entropy logic theory allow us to affirm that in physical systems during informational exchange appear unstable (metastable) states when possibility of their destruction is increased greatly. Intensity of informational exchange between two exchanging systems A and B is increased when form of one of these systems is destroyed. Order strength of any system is equal to amount of contained information in it; that is why destruction of one system’s (A) form with parallel information transferring to another system (B) represents information conservation law postulated by quantum entropy logic theory. Entropy logic theory states that these theses are physically rightful only in case if A and B systems are quantum and aggregate of A and B can be described by one condition. This provides presence of initially existing informational exchange preceding destruction of one system’s structures which within context of entropy logic ties both parts together in single quantum system, because in corresponds to effect of Einstein – Podolsky – Rosen. Quantum entropy logic theory allows us to clarify many details of fundamental psychophysical mechanisms which are used in long-range information transfer between two spatial diverse objects. The theory reveals mechanisms forming associativity, informational selectivity and other characteristics of such exotic channel of information transfer.

The system operates on the basis of principle of initiating signal amplification at destruction of metastable structures. Under the influence of external electromagnetic fields, the magnetic moments of molecular currents of the accessory centers of the neurocytes of the crust of brain lose their pristine orientation, which disorder the spin frames of the delocalized electrons, which is the reason of occurrence therein of unstable metastable states, which disintegration plays the role of the amplifier of the initiation signal. From the physical point of view the system represents a system of electronic oscillators (cadistors), resounding on a wavelength which energy is adequate to the energy of destruction of the predominant links supporting the structural architecture of the examined organism. The information about a particular condition of a biological object is read non-invasively by digital trig-ger sensor, which was developed using modern information technologies and microcircuitry catching weak fluctuations of the signals, evolved out of average statistical noise characteristics of the fields, and converted into a digital sequence, processed with the help of a microprocessor for transmitting it via interface cable to the computer. If, being based on the quantum chromokinetics rules, you present entropy values any system as colors of spectrum, such colors will vary from light yellow (at minimum entropy values) through orange to red and purple, almost black (at maximum entropy values). Finer theoretical calculations performed by computer, allow singling out a number of stationary conditions corresponding to a certain entropy potential, selectively interacting with the emission spectrum. By comparing the color gamma of the icons and their location on the organ computer model, and also their time change dynamics, one can judge on the processes of destruction of biological structures and give structures’ stability in time forecasts. The principles by realizing of which the system operates as a diagnostic one are described below. Each sort of cells has its own energy of destruction typical for certain intercellular molecular link. By changing characteristics of 9d nls systemcadistor radiation, one can cause a destruction of intercellular structures links (and related spin orientations of bio-molecular combinations) of any cells of organism tissues. It is natural that the more stable and correspondingly more damaged condition researched tissues have, the more pronounced response we will have according to quantum entropy logic theory. At the same time scanning frequencies will coordinate position of response which together with value of response will draw general geometry of accumulated damages in an organism. As soon as response is located by operation of psychophysical phenomena, we additionally introduced a number of physical forces activating brain functions of investigated persons, and also adjusting it resonantly (visualization of located organs on a screen of a computer, using of associativity principle). Using at locating energy impact which destroy typical molecular links is always interfits with resonance of corresponding electronic bridges in cadistor structure. On the basis of such resonance and released (at destruction of spin organization) energy due to appearance of metastable non-linear processes in cadistor structure quantum filling is carried out, resulting in amplification of response radiated by an organism.

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criticalotterstudies · 8 years ago

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This is actually the paradox of Wigner’s friend (in a paper I called the friend John, after Eugene Wigner’s fellow high-school student in Budapest, John Von Neumann.) It goes like this. Imagine Eugene’s friend John conducting a quantum measurement on something (the spin of a silver atom, say) inside a laboratory that is completely isolated from the rest of the world—by hypothesis there are no mechanical, electromagnetic or any other physical interactions between the lab and its external environment (a condition that would be completely unrealizable in practice). John observes the atom as spinning up along his chosen axis—it is detected in the upper half of his detection screen—and writes the result in his notebook. Meanwhile, Eugene remains outside the laboratory where he is physically unable to observe what is going on inside. According to Wigner (and many others, including Dirac and von Neumann), John observes a determinate result of his measurement only insofar as the quantum state (“wave function”) of the atom (+detection screen+ notebook entry+…) ceases to be an entangled superposition, but physically collapses onto one of that superposition’s components, corresponding to spin up (rather than down). But according to Eugene, who has not (yet) made any observation, the quantum state of the entire lab (including John’s notebook and John’s body and brain as well as the silver atom and detection screen) remains an entangled superposition. So Eugene and John assign different quantum states to the lab and its contents—one representing a determinate result of John’s experiment, the other representing no definite result. If Eugene now enters the lab (inevitably interacting physically with it) and observes its contents, it is his (Eugene’s) observation that then collapses the lab’s state to produce a result of John’s measurement. When he asks John what result he obtained, John will say “spin up”. Eugene will not take this as a true report of what happened before he entered the lab, but a physical response brought about only by his observation on entering the lab (even though Eugene’s further examination of the lab’s contents will reveal multiple “records” apparently confirming the truth of John’s report). Wigner himself (at one time) proposed to resolve this paradox by supposing that it is consciousness (and only consciousness) that collapses the quantum state. On this supposition, a collapse occurred as soon as John became aware of the result of his experiment, and Eugene simply found this out when he entered the lab—Eugene’s subsequent observation did not need to induce any further collapse. A pragmatist dissolves the paradox by rejecting Wigner’s view that the quantum state represents the physical condition of a system to which it is assigned. Instead, relative to a specified physical situation, a quantum state provides an objective guide for any agent who might be in that situation—a guide to the significance of claims about a system, and what credence to attach to each significant claim. So quantum state “collapse” is not a physical process, but an objective constraint on updating beliefs in the light of a change in physical (and so epistemic) situation. And differently situated agents (like John and Eugene) should consistently assign different quantum states to the same system—neither of which serves to represent its physical condition. John’s measurement yields a determinate result as soon as the silver atom interacts with the detection screen, whether or not John or anyone else becomes conscious of this result. John and Eugene use their respective quantum state assignments to adjust their degrees of belief about what this result is, each in the light of all information physically available to him at the time. 3:AM: Does pragmatism help resolve the issue of reconciling quantum mechanics with relativity? RH: Yes, in three ways. First, by adopting the pragmatist view of the non-representational function of the quantum state briefly sketched in my answer to question 8. Second, by understanding probability in terms of its role as providing an objective guide to credence (degree of belief) for a physically situated (and so epistemically limited) agent. Third, by understanding causation in terms of its role as providing an objective guide to an agent’s assessment of the chances of various possible consequences of his actions. You can see how all three ways work together in a classic example that exhibits the apparent conflict between quantum mechanics and relativity—Bohm’s version of the Einstein-Podolsky-Rosen thought-experiment. If one adopts these three pragmatist views it becomes clear why there is no conflict. [...] Reduction is often thought to take the form of a derivation of the laws of the reduced theory to those of the reducing theory. But in my view quantum mechanics has no laws! In particular, the Schrödinger equation is not a fundamental dynamical law representing the evolution of a physical magnitude (the quantum state), and the Born rule is not a fundamental stochastic law. This follows from the fact that neither quantum states nor quantum probabilities are physical magnitudes. [...] So while I think quantum theory helps us to understand all kinds of otherwise puzzling phenomena, it does not do this by saying what’s going on at a deeper level: ontologically speaking, there is no quantum level. Quantum theory is fundamental to contemporary physics, and is likely to remain so for the foreseeable future. But it does not contain fundamental laws, and does not contribute its own fundamental ontology. Since quantum mechanics is in these ways parasitic on other descriptive or representational frameworks it cannot be expected to provide a basis for the reduction of the macroscopic to the microscopic. Nor, therefore, can anything else within the horizon of contemporary physics.

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chitrashekhawat-blog · 8 years ago

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Bio-electricity, Qi, and the Human Body

by Don E. Brown II, MSIS Certified Instructor; Chi Energy Heals Qi is the electric energy associated with living organisms. Electricity, defined by Merriam-Webster, is as follows: a fundamental form of energy observable in positive and negative forms that occurs naturally (as in lightning) or is produced (as in a generator) and that is expressed in terms of the movement and interaction of electrons. Generally speaking, when thinking of electricity, we think of it as something external to our human bodies: the naturally occurring lightning and human created technology being two said instances. There is, however, a form of electricity that is prevalent in every living creature: bioelectricity. Bioelectricity is the electric phenomena related to living organisms It is bioelectricity that enables a shark to map the ocean floor. It is bio-electromagnetic phenomena that enable migratory birds to travel great distances at the same time each year with the accuracy we have only been able to reproduce with maps and GPS. It is bioelectricity that enables the electric eel to generate large fields of current outside their bodies. The difference of electricity vs. bioelectricity is in degree, not in kind. Whereas a lightning bolt can exceed temperatures of 54,000 degrees Fahrenheit (30,000 degrees Celsius), that same current runs through the human body, just on a smaller scale. In fact, the human body runs largely off of [bio] electricity and has organs dedicated to sensing electromagnetic impulses, both inside and outside the human body. The pineal and pituitary glands are both directly tied to the human body's ability to sense and actively experience electromagnetic phenomenon. The pineal gland is the evolutionary descendant of our ancestors' ability to perceive light. It also "regulates the circadian rhythms of the body, biological rhythms that are attuned to the day-night cycle," (Celtoslavica, "Electricity and Human Consciousness); these "rhythms" can be and have been disrupted by electromagnetic fields, both naturally occurring as well as man-made. The pituitary gland "controls and influences all other hormonal organs which report back to the pituitary gland" (Celtoslavica, "Electricity and Human Consciousness); in fact, the pituitary gland is largely responsible for the overall functioning and efficiency of the human nervous system. The nervous system in human beings is based entirely off of https://mrelectric.com/ the ability to transmit electric pulses. Every cell within the human body pumps ions (e.g. that which makes up the quantum field), in and out of the cell for energy purposes; this is called the Sodium-Potassium pump, and can be found in all animal life. Said energy, in the biological animal, is called "adenosine triphosphate" (ATP); biologists and biochemist alike have noted that ATP can be neutral, or carry a charge (plus or minus), and is, infact, a charged particle which the cells use for energy. ATP is the final product of the digestive cycle and further exemplifies the human being's connection (and ability) to experience and manipulate the electromagnetic fields that permeate the Universe. "Bio-magnetism: An Awesome Force in Our Lives", an article published by Reader's Digest (January 1983), highlights some of the [still] cutting edge https://www.youtube.com/watch?v=aWoSWNwtVKA concepts the scientific community is, and has been, practicing: "When a patient with a broken leg that is not healing properly comes to Dr. Basset (Columbia Presbyterian Medical Center in New York City, NY), he is likely to go home with two heavy pads connected by wires to a box that can plug into an electrical wall socket. The patient puts one pad on each side of his broken bone and turns on the device. Coils of wire in the pad induce a pulsing electromagnetic field into his flesh and bone -- a field of qi energy that somehow commands the bone to heal itself." As postulated by the scientists interviewed in the article, it makes sense that human beings have the innate ability to sense electromagnetic phenomena: "We live on a sun-lit planet, and most living things have acquired some means to use the light. We live in a world filled with sounds, and most living things have developed a means to sense vibrations. Since our planet is also a giant magnet, it should not surprise us to discover that we and many other living things have a sensitivity to Earth's magnetic-force field." As we look from large-scale physics, e.g., the lightning bolt and the sodium-potassium pump, to smaller scale electromagnetic phenomenon, we find ourselves in the realm of quantum mechanics. Light is an electromagnetic phenomenon. Light is both a wave and a particle. In terms of quantum mechanics, electricity and light are the same. The oscillations of the impulses create the divergent effects. Microwaves, radio waves, even the non-lethal weapons of the US Army (such as the Active Denial System) are based out of electromagnetic fields. 203

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Qi, too, is an electromagnetic phenomenon. Qi is energy; light energy; bio-electromagnetic energy; electricity. The degree of strength in an electromagnetic impulse is the difference between the heart pumping vs. a heart attack. When building qi, it is important to understand, important to know, that the electricity you are both introducing to your body as well as augmenting within your body, can be controlled/manipulated by your mind. The design of the human body features many organs attuned to electromagnetic phenomena: the eyes register individual photon packets; the tympanic membrane vibrates the mechanical wave of sound; the brain creates an electromagnetic field that is both separate and different from that which the heart generates. All this is to say that not only do human beings interact with electricity, we are fully capable of cultivating and controlling the bioelectricity we generate via our own bodies. Understanding that qi is our natural form of electricity, and that this energy comprises the very building blocks of spacetime, it is easy for us to see with the eyes of the enlightened - the interconnectedness we have with the Universe, and our abilities to move past the mundane. Author's Bio: Director of Research & Development Certified Chi Energy Instructor Sifu Don Brown II, MSIS Don Brown began his training with Sifu Jones in 1997. His background is an amalgam of intellectual curiosity, stemming from his introduction to the concept of chi in traditional martial arts [tai chi and kenjutsu] and similarities between the two. Don's scientific curiosity, background in Engineering (Masters of Science in Information Sciences) and [admitted] skeptical nature make him a perfect research assistant https://www.youtube.com/watch?v=aWoSWNwtVKA for the Sifus. Don's interviews focus on quantum physics and how the latest scientific data correlate to chi, and more specifically, for the School of Chi Energy. The information conveyed therein is backed with hours upon hours of research, and is explained in layman terms; Don takes great strides in not "dumbing it down", but more importantly, step by step, educating you on the nuances of each topic, so that a complete and thorough understanding of the information can be shared by the practitioners, and incorporated into our daily lives. www.chienergyheals.com http://www.selfgrowth.com/print/6456281

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