• Physics is the study of the basic principles that govern the physical world around us. We’ll start by looking at motion itself. Then, we’ll learn about forces, momentum, energy, and other concepts in lots of different physical situations.
  • Classical mechanics.
  • Thermodynamics and statistical mechanics.
  • Electromagnetism and photonics.
  • Relativistic mechanics.
  • Quantum mechanics, atomic physics, and molecular physics.
  • Optics.
  • Condensed matter physics.
  • High-energy particle physics and nuclear physics.
  • THE LAW THAT CONTROLS ALL PARTICLE INTERACTIONS IS THIS:
  • ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES.  THIS IS THE LINKAGE BETWEEN MATTER AND FORCE CARRYING PARTICLES. THE LINKAGE BETWEEN THE PARTICLE ZOO IS CONTROLLED BY FERMIONS AND BOSONS. 
  • THE REALITY OF HOW LIFE FORMS CAME ABOUT ON THIS REMOTE BLUE MARBLE IS THIS:  THE EVENT ORIGINATOR WROTE THE CODE, PRODUCED THE BLUEPRINT, AND USED AN EVOLVEMENT PROCESS TO OBTAIN THE REQUISITE RESULT.  IT’S ALL JUST A BINARY SOFTWARE PROGRAM.
    • Every symmetry of physics laws leads to a conservation law, and every conservation law arises from a symmetry in the laws of physics. 
    • Symmetry is the casual structure built into the creation module.  The creation module has a two-way arrow of time that is built into it.  All current information is always passed back into the versatile storage unit.  These informational totals can’t be changed or deleted.
    • The closed sub-atomic quantum system is a duplicate of the macro quantum system.  The two systems interact on a binary basis.
  • The triune combined functions of consciousness, quantum gravity, and quantum entanglement act as one from the underside of the fabric of space-time.
  • PHYSICS IS THE STUDY OF MATTER AND THE MOVEMENT OF THAT MATTER THROUGH THE SPACE AND TIME OF THE UNIVERSE.
  • 1st:  CLASSICAL MECHANICS (THE LAWS OF MOTION)
  • In 1687, Newton’s first book laid out the fundamental laws of motion, or classical mechanics. The 3 parts were:
  • OBJECTS AT REST WILL REMAIN AT REST, AND OBJECTS IN MOTION WILL REMAIN IN MOTION AT THE SAME VELOCITY UNLESS AN EXTERNAL FORCE INTERVENES.
  • FORCE EQUALS MASS TIMES ACCELERATION (F= ma).
  • WHEN ONE OBJECT EXERTS A FORCE ON ANOTHER OBJECT, THE 2nd OBJECT EXERTS AN EQUAL AND OPPOSITE ON THE FIRST.
  • 2nd: ELECTROMAGNETISM
  • Electromagnetism refers to the force generated by the electrons that are found in certain types of matter found throughout the universe.
  • Such as, the compounds found in magnets that have electrons that are configured in such a way as to exert force on other electrons that are “charged particles”.  Other charged particles will be attracted to the magnet (a paper clip, but not your finger). The force carried by an electromagnetic field is carried by photons which are particles that sometimes act like waves, and sometimes vice versa.
  • Visible light is a form of electromagnetic radiation.
  • 3rd: RELATIVITY
  • Movement is relative. I. E., the Earth is currently rotating around the sun at around 67,000 mph, but, due to relativity, it doesn’t feel like that to us.     special relativity expanded general relativity.    The speed of light (671 million mph), is the absolute speed limit for light. Relativity can’t exceed it.
  • The faster you move, the slower time goes.
  • 4th: THERMODYNAMICS
  • The study of thermodynamics revolves around the relationship between heat, energy and mechanical work.  Its 4 laws revolve around the basic interpretation of heat as movement.
  • At an atomic level, “temperature” actually refers to atomic movement.
  • Solar energy excites the atoms in the Earth’s atmosphere to vibrate rapidly.  This warms things up.
 Laws of Physics 1.Archimedes Principle The principle was discovered in the 3rd century B.C. by the Greek mathematician. Archimedes. It states that when a body is partially or totally immersed in a fluid, it experiences an upward thrust equal to the weight of the fluid displaced by it that i.e. its apparent loss of weight is equal to the weight of the liquid displaced. 2. Avagadro’s Law In 1811 it was discovered by an Italian Scientist Anedeos Avagadro. This law states that an equal volume of all gases under the same conditions of temperature and pressure contain an equal number of molecules. 3. Ohm’s Law It states that the current passing through a conductor between two points is directly proportional to the potential difference across the two points provided the physical state and temperature etc. of the conductor does not change.
Newtons Law Law of Gravitation: Objects attract each other with a force directly proportional to the product of the masses of the objects and inversely proportional to the square of the distance between them. Hence, for objects on or near the earth, the mass of the earth is very much greater than the object, and so the gravitational force between them makes objects fall towards the earth. That is why lead and feather fall at the same rate in a vacuum. Newton’s First Law of Motion A body continues in its state of rest, or of uniform motion in a straight line, except in so far as it is compelled by external impressed forces to change that state. It is also called the Law of Inertia. Newton’s Second Law of Motion The rate of change of momentum is proportional to the impressed force and takes place in the direction of the straight line in which the force acts. In other words “Force is equal to mass multiplied by acceleration”. Newton’s Third Law of Motion To every action there is equal and opposite reaction. This is the principle behind the recoil felt on pulling the trigger of a gun. Newton’s Law of cooling The rate at which a body cools or loses its heat to its surroundings is proportional to the excess of the mean temperature of the body over that of the surroundings, provided this temperature excess is not too large. 5. Coulomb’s Law (1738-1806) The force between the two electric charges reduces to a quarter of its former value when the distance between them is doubled. The SI unit of electric charge, coulomb, is named after Charles Augustin de Coulomb who established the law. 6. Stefan’s Law (1835-1883) The total energy radiated from a black body is equal to the fourth power of its absolute temperature.
7. Pascal’s Law (1623-1662)
– When pressure is applied to a fluid, the pressure change is transmitted to every part of the fluid without loss. Hydraulic machines like the hydraulic press work on this principle. – Atmospheric pressure decreases with an increase in height. The SI unit of pressure is pascal which is named after Pascal who established this law. 8. Hooke’s Law (1635-1703) This law states that the extension of a spring is proportional to the tension stretching it. Doubling of the tension results in the doubling of the amount of stretch. 9. Bernoulli’s Principle It states that as the speed of a moving fluid, liquid or gas, increases, the pressure within the fluid decreases. The aerodynamic lift on the wing of an airplane is also explained in part by this principle. 10. Boyles’s Law It states that temperature remaining constant, the volume of a given mass of a gas varies inversely with the pressure of the gas. 11. Charles’s Law It states that pressure remaining constant, the volume of a given mass of gas increases or decreases by 1/273 part of its volume at 0 degree Celsius for each degree Celsius rise or fall of its temperature. 12. Kepler’s Law Each planet revolves around the Sun in an elliptical orbit with the Sun at one focus. The straight line joining the Sun and the planet sweeps out equal areas in equal intervals. The squares of the orbital periods of planets are proportional to the cubes of their mean distance from the Sun. 13. Law of conservation of energy It states that energy can neither be created nor destroyed but it can be transformed from one form to another. Since energy cannot be created or destroyed, the amount of energy present in the universe is always remains constant. 14. Tyndall effect The scattering of light by very small particles suspended in a gas or liquid. 15. Graham’s Law It states that the rates of diffusion of gases are inversely proportional to the square roots of their densities under similar conditions of temperature and pressure. Quantum physics experiment shows Heisenberg was right about ...