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Physics 2 : a QuickStudy Digital Reference Guide.
- Format:
- Book
- Author/Creator:
- Kraabel, Brett.
- Language:
- English
- Subjects (All):
- Physics.
- Physical Description:
- 1 online resource (6 pages)
- Edition:
- 1st ed.
- Other Title:
- Physics 2
- Place of Publication:
- Newburyport : BarCharts, Inc., 2019.
- Summary:
- Get the answers you need at your fingertips faster than any other source. Success in Physics is critical when entering the growing fields of technology, computer science and engineering that will support our future progress and innovation with breakthroughs and advances. To help retain the facts, equations and concepts essential to success in class and beyond, these 6 digital pages can be referenced quickly and easily while studying, as a refresher before exams or even as a desktop reference beyond school. Expertly written by author, editor and professor Brett Kaabel PhD, and designed for quick use and high retention. Be sure to get our original Physics guide and Physics 2 for more complete coverage and better grades for an unmatched value. 6 page digital guide includes: Introduction, Constants & Definitions Classical Mechanics Kinematics, Newton's Laws Work & Kinetic Energy, Potential Energy (U) Conservation of Energy, Momentum Simple Harmonic Motion (SHM) Gravitation Thermodynamics Temperature Scales Zeroth Law, First Law & Second Law of Thermodynamics Thermal Properties of Systems Kinetic Theory of Gasses Waves Types of Waves Transverse vs. Longitudinal Waves Wave Equation Electromagnetism Electric Charge, Electric Field Magnetic Field, Magnetic Fluz Gauss's Law for Magnetism Faraday's Law of Induction Electromagnetic Waves, Electric Circuits Special Relativity Einstein's Postulates, Time Dilation Length Contraction Lorentz Transformation, Velocity Transformation Relativistic Doppler Effect Relativistic Energy & Momentum Quantum Mechanics Quantized Atomic Energy Levels Nuclear Physics Atoms, Nuclei, Nuclear Forces Radioactivity, Nuclear Reactions Force Carriers
- Contents:
- PHYSICS 2
- Introduction, Constants &
- Definitions
- Classical Mechanics
- Kinematics
- Motion in One Dimension with Constant Acceleration
- Motion in Two Dimensions with Constant Acceleration
- Motion in Three Dimensions
- Uniform Circular Motion
- Newton's Laws
- Mass &
- Inertia
- Newton's First Law
- Newton's Second Law
- Newton's Third Law
- Types of Forces
- Rotational Inertia I
- Torque
- Newton's First Law for Rotation
- Newton's Second Law for Rotation
- Newton's Third Law for Rotation
- Work &
- Kinetic Energy
- Kinetic Energy K
- Work
- Work-Energy Theorem
- Potential Energy U
- Gravitational Energy
- Spring
- Electric Charges
- Conservation of Energy
- Conservation of Mechanical Energy
- Momentum
- Center of Mass
- Linear Momentum
- Angular Momentum
- Conservation of Momentum
- Simple Harmonic Motion (SHM)
- For Spring
- For Pendulum
- Gravitation
- Thermodynamics
- Thermal vs. Internal Energy
- Thermodynamic State Variables P, V, T &
- n
- Temperature Scales
- Temperature T
- Arbitrary Scales
- Absolute Scales
- Conversion between Temperature Scales
- Zeroth Law of Thermodynamics
- First Law of Thermodynamics
- Second Law of Thermodynamics
- Entropy (S)
- Reversible &
- Irreversible Processes
- Microscopic Approach to Entropy (Statistical Mechanics)
- Fundamental Assumption of Statistical Thermodynamics
- Macroscopic Approach to Entropy
- Microscopic Version of the Second Law
- Macroscopic Version of the Second Law
- Consequences of the Second Law
- Thermal Properties of Systems
- Heat Capacity
- Extensive Heat Capacity
- Intensive Heat Capacity
- Molar Heat Capacity
- Degrees of Freedom
- Heat Capacity Ratio for Ideal Gas
- Kinetic Theory of Gases
- Kinetic Theory of Ideal Gas.
- Equation of State for Ideal Gas
- Constrained Ideal Gas Processes
- Change in Internal Energy for Any Ideal Gas Process
- Waves
- Types of Waves
- Transverse vs.Longitudinal Waves
- Wave Equation
- Harmonic Wave
- Superposition of Waves
- Doppler Effect
- Electromagnetism
- Electric Charge
- Conservation of Charge
- Force between Static Electric Charges
- Electric Field
- Point Charge
- Electric Dipole
- Electric Dipole Moment
- Gauss's Law for Electrostatics
- Electric Potential Energy
- Electric Potential (V)
- Magnetic Field
- Magnetic Dipole
- Magnetic Dipole Moment
- Magnetic Force on a Moving Charge
- Calculating the Magnetic Field
- Magnetic Field of a Straight Current-Carrying Wire
- Magnetic Field on Axis of Current Loop
- Ampere's Law
- Magnetic Flux
- Gauss's Law for Magnetism
- Lenz's Law
- Motional Emf
- Electromagnetic Waves
- Energy Transport in Electromagnetic Waves
- Maxwell's Equations for Free Space
- Electric Circuits
- Capacitors
- Inductors
- Ohm's Law
- Energy in a Circuit
- Special Relativity
- Einstein's Postulates
- The Relativity Postulate
- The Speed of Light Postulate
- Time Dilation
- Simultaneity Is Relative
- Length Contraction
- Lorentz Transformation
- Velocity Transformation
- Relativistic Doppler Effect
- Relativistic Energy &
- Quantum Mechanics
- Quantized Atomic Energy Levels
- Pauli Exclusion Principle
- Nuclear Physics
- Atoms
- Nuclear Notation
- Atomic Mass Units
- Nuclei
- Nuclear Forces
- Strong Nuclear Force
- Weak Nuclear Force
- Radioactivity
- Alpha Decay
- Beta Decay
- Gamma Emission
- Decay Rates
- Nuclear Reactions
- Conservation of Nucleon Number
- Nuclear Fission
- Nuclear Fusion
- Force Carriers.
- Notes:
- Description based on publisher supplied metadata and other sources.
- ISBN:
- 9781423242284
- 1423242289
- OCLC:
- 1241450261
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