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Ch 02: Describing Motion: Kinematics in One DimensionWorksheetSee all chapters
All Chapters
Ch 01: Introduction, Measurement, Estimating
Ch 02: Describing Motion: Kinematics in One Dimension
Ch 03: Kinematics in Two or Three Dimensions; Vectors
Ch 04: Dynamics: Newton's Laws of Motion
Ch 05: Using Newton's Laws: Friction, Circular Motion, Drag Forces
Ch 06: Gravitation and Newton's Synthesis
Ch 07: Work and Energy
Ch 08: Conservation of Energy
Ch 09: Linear Momentum
Ch 10: Rotational Motion
Ch 11: Angular Momentum; General Rotation
Ch 12: Static Equilibrium; Elasticity and Fracture
Ch 13: Fluids
Ch 14: Oscillations
Ch 15: Wave Motion
Ch 16: Sound
Ch 17: Temperature, Thermal Expansion, and the Ideal Gas Law
Ch 18: Kinetic Theory of Gases
Ch 19: Heat and the First Law of Thermodynamics
Ch 20: Second Law of Thermodynamics
Ch 21: Electric Charge and Electric Field
Ch 22: Gauss' Law
Ch 23: Electric Potential
Ch 24: Capacitance, Dielectrics, Electric Energy
Ch 25: Electric Currents and Resistance
Ch 26: DC Circuits
Ch 27: Magnetism
Ch 28: Sources of Magnetic Field
Ch 29: Electromagnetic Induction
Ch 30: Inductance, Electromagnetic Oscillations, and AC Circuits
Ch 31: Maxwell's Equations and Electromagnetic Waves
Ch 32: Light, Reflection and Refraction
Ch 33: Lenses and Optical Instruments
Ch 34: The Wave Nature of Light; Interference
Ch 35: Diffraction and Polarization
Ch 36: Special Relativity
Ch 37: Early Quantum Theory and Models of the Atom
Ch 38: Quantum Mechanics
Ch 40: Molecules and Solids
Ch 41: Nuclear Physics and Radioactivity
Ch 43: Elementary Particles

Concept #1: Introduction to Vectors and Scalars

Concept #2: Displacement vs. Distance

Practice: Starting from a pillar, you run a distance 140m east (the + x-direction), then turn around. 

(a) How far west would you have to walk so that your total distance traveled is 300m?

(b)What is the magnitude and direction of your total displacement?