Physics Study Guide Xania has nominated himself for use of the Checkuser tools. Please provide your input on this important decision. From Wikibooks, open books for an open world <Cover and interwiki Introduction Section One Units S.I. unitsKinematics Displacement, velocity, accelerationForce Newton's 3 Laws of MotionMomentum Elastic and inelastic collisionsFriction and the Normal ForceWork Force times distanceEnergy The potential to do Work Section Two Section Three FluidsFieldsThermodynamicsElectricity Charge, current, electric fieldsMagnetism Magnetic dipoles, magnetic fieldsElectronics Resistance, voltage, capacitance, inductance (incomplete)Optics Light, lasers etcTheories of Electricity Theories behind Electricity Appendices Standard Model The Standard Model of particle physics is a theory concerning the electromagnetic, weak, and strong nuclear interactions, as well as classifying all the subatomic particles known. It was developed throughout the latter half of the 20th century, as a collaborative effort of scientists around the world.[1] The current formulation was finalized in the mid-1970s upon experimental confirmation of the existence of quarks. Since then, discoveries of the top quark (1995), the tau neutrino (2000), and more recently the Higgs boson (2013), have given further credence to the Standard Model. Because of its success in explaining a wide variety of experimental results, the Standard Model is sometimes regarded as a "theory of almost everything". Historical background[edit] The Higgs mechanism is believed to give rise to the masses of all the elementary particles in the Standard Model. Overview[edit] Particle content[edit] Fermions[edit] Gauge bosons[edit] Higgs boson[edit] Main article: Higgs boson E.S.
Bioman Biology: The Fun Place to Learn Biology! Motion Mountain - The Free Physics Textbook for Download Keys 2 Cognition - Cognitive Processes 47. Trust what emerges from brainstorming. 48. Easily get in sync physically with people and things around you. Your Demographic Data This assessment and your upcoming results are free of charge. Your sex: Your age: This model tries to tap into development. Which of the following best represents your background, career, and training? Which region below best represents your cultural upbringing or ethnicity? Your Myers-Briggs type code, as you best know? Your name + birth year or other memorable identifier: Minimum 10 letters. The forum, person or website that brought you here: Your comments (optional): Warning! When you are ready, please click submit to view results... Copyright January 2005, 2021, Dario Nardi, with thanks to Dr.
The Physics Classroom FHSST Physics The Free High School Science Texts: A Textbook for High School Students Studying Physics. Units[edit] Waves and Wavelike Motion[edit] Vectors[edit] Forces[edit] Rectilinear Motion[edit] Momentum[edit] Work and Energy[edit] Collisions and Explosions[edit] Newtonian Gravitation[edit] Pressure[edit] Important Equations and Quantities Heat and Properties of Matter[edit] Electrostatics[edit] Electricity[edit] Magnets and Electromagnetism[edit] Electronics[edit] The Atom[edit] Modern Physics[edit] Inside the Atomic Nucleus[edit] This is part of a University of Cape Town project: RW James Building, University of Cape Town, Rondebosch 7701, South Africa. Contributors might consider checking for the current status of the book and can contact the SA team at
Force Carrier Particles Fact File Physics for Beginners - What are Force Carrier Particles? This hub aims to summarise the facts you should already know about force carrier particles and their interactions. In order for you to apply the facts that follow in this hub, you will need to have already learned about the fundamental particles that comprise our universe. If you haven't already done so or need to recap, see: Fundamental Particles Fact File Four Interactions There are four interactions that occur between particles. ElectromagneticStrongWeakGravity Every force that we know of can be explained with these four fundamental interactions. 2. Strong Force and Colour Charges Strong force holds together the quarks inside baryons (e.g. protons and neutrons) and mesons.Strong force works through the relationship between colour charged particles.The force carrier particles that carry strong force are called gluons.Gluons have colour charge and so do the particles that they affect: quarks and anti-quarks Quarks and Colour Charges