Teacher
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FILABOZZI ALESSANDRA
(syllabus)
Mechanics Chapter 1: Introduction, Measurement, Estimating 1.4: Measurement and Uncertainty; Significant Figures 1.5: Units, Standards, and SI Units 1.6: Converting Units 1.8: Dimensions and Dimensional Analysis
Chapter 2: Describing Motion: Kinematics in One Dimension 2.1: References Frames and Displacement 2.2: Average Velocity 2.3: Instantaneous Velocity 2.4: Acceleration 2.5: Motion at Constant Acceleration
Chapter 3: Kinematics in Two Dimensions; Vectors 3.1: Vectors and Scalars 3.2: Addition of Vectors-Graphical Methods 3.3: Subtraction of Vectors and Multiplication of a Vector By a Scalar 3.4: Adding Vectors by Components
Chapter 4: Dynamics: Newton's Laws of Motion 4.1: Force 4.2: Newton's First Law of Motion 4.3: Mass 4.4: Newton's Second Law of Motion 4.5: Newton's Third Law of Motion 4.6: Weight-The Force of Gravity; and the Normal Force 4.7: Solving Problems with Newton's Laws: Free-Body Diagrams 4.8: Problems Involving Friction, Inclines 4.9: Problem Solving-A General Approach
Chapter 5: Circular Motion; Gravitation 5.1: Kinematics of Uniform Circular Motion 5.2: Dynamics of Uniform Circular Motion 5.6: Newton's Law of Universal Gravitation
Chapter 6: Work and Energy 6.1: Work Done by a Constant Force 6.3: Kinetic Energy and the Work-Energy Principle 6.4: Potential Energy 6.5: Conservative and Nonconservative Forces 6.6: Mechanical Energy and its Conservation 6.7: Problem Solving Using Conservation of Mechanical Energy 6.8: Other Forms of Energy: Energy Transformations and the Law of Conservation of Energy 6.10: Power
Chapter 7: Linear Momentum 7.1: Momentum and Its Relation to Force 7.2: Conservation of Momentum 7.8: Center of Mass (CM) 7.10: Center of Mass and Translational Motion
Chapter 8: Rotational Motion 8.1: Angular Quantities 8.2: Constant Angular Acceleration 8.4: Torque 8.5: Rotational Dynamics; Torque and Rotational Inertia 8.6: Solving Problems in Rotational Dynamics 8.7: Rotational Kinetic Energy
Chapter 9: Static Equilibrium; Elasticity and Fracture 9.1: The Conditions for Equilibrium 9.2: Solving Statics Problems 9.3: Applications to Muscles and Joints 9.4: Stability and Balance 9.5: Elasticity; Stress and Strain 9.6: Fracture Fluids Chapter 10: Fluids 10.1: Phases of Matter 10.2: Density and Specific Gravity 10.3: Pressure in Fluids 10.4: Atmospheric Pressure Gauge Pressure 10.5: Pascal's Principle 10.6: Measurement of Pressure; Gauges and the Barometer 10.7: Buoyancy and Archimedes' Principle 10.8: Fluids in Motion; Flow Rate and the Equation of Continuity 10.9: Bernoulli's Principle 10.10: Applications of Bernoulli's Principle: from Torricelli to Airplanes, Baseballs, and TIA 10.11: Viscosity 10.12: Flow in Tubes: Poiseuille's Equation, Blood Flow
Electricity and Magnetism Chapter 16: Electric Charge and Electric Field 16.1: Static Electricity; Electric Charge and its Conservation 16.2: Electric Charge in the Atom 16.3: Insulators and Conductors 16.4: Induced Charge; the Electroscope 16.5: Coulomb's Law 16.6: Solving Problems Involving Coulomb's Law and Vectors 16.7: The Electric Field 16.8: Field Lines 16.9: Electric Fields and Conductors
Chapter 17: Electric Potential 17.1: Electric Potential Energy and Potential Differences 17.2: Relation Between Electric Potential and Electric Field 17.3: Equipotential Lines 17.4: The Electron Volt, a Unit of Energy 17.5: Electric Potential Due to Point Charges 17.7: Capacitance 17.8: Dielectrics 17.9: Storage of Electric Energy
Chapter 18: Electric Currents 18.1: The Electric Battery 18.2: The Electric Current 18.3: Ohm's Law: Resistance and Resistors 18.4: Resistivity 18.5: Electric Power 18.8: Microscopic View of Electric Current
Chapter 19: DC Circuits 19.1: EMF and Terminal Voltage 19.2: Resistors in Series and in Parallel 19.3: Kirchhoff's Rules 19.4: EMFs in Series and in Parallel; Charging a Battery 19.5: Circuits Containing Capacitors in Series and in Parallel 19.6: RC Circuits-Resistor and Capacitor in Series
Chapter 20: Magnetism 20.1: Magnets and Magnetic Fields 20.2: Electric Current Produce Magnetic Fields 20.3: Force on an Electric Current in a Magnetic Field: Definition of B 20.4: Force on an Electric Charge Moving in a Magnetic Field 20.5: Magnetic Field Due to a Long Straight Wire 20.8: Ampere's Law
Chapter 21: Electromagnetic Induction and Faraday's Law 21.1: Induced EMF 21.2: Faraday's Law of Induction; Lenz's Law 21.3: EMF Induced in a Moving Conductor 21.4: Changing Magnetic Flux Produces an Electric Field
(reference books)
PHYSICS: Douglas C. Giancoli “PHYSICS: Principles with Applications” Seventh edition or subsequent, Pearson Education. Inc
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