Introductory Physics Notes
by I. Burley, M. Carrington, R. Kobes, G. Kunstatter
Publisher: University of Winnipeg 1996
These notes constitute a general, non-calculus introductory physics course. Topics: Motion; Force; Work and Energy; Momentum and Collisions; Circular Motion and the Law of Gravity; Rotational Equilibrium and Dynamics; Solids and Fluids; Vibrations and Waves; Electric Fields and Potentials; Current and Resistance; Magnetism; Wave Properties of Light; Quantum Physics; Atomic Physics; Nuclear Physics.
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by Sanjoy Mahajan - The MIT Press
Sanjoy Mahajan shows us that the way to master complexity is through insight rather than precision. He first teaches the tools for organizing complexity, then distinguishes two paths for discarding complexity: with and without loss of information.
This textbook is designed for use with first- and second-year college level physics for engineers and scientists. While the content is not mathematically complicated or very advanced, the students are expected to be familiar with calculus.
by Paul Fendley - The University of Virginia
Topics: Kinematics, Forces, Newton's Laws, Weight, Tension, Friction, Rotational Motion, Conservation of Energy, Work, Momentum, Center of Mass, Rotational Kinematics, Torque, Rotational Dynamics, Stress and Strain, Simple Harmonic Motion, Fluids ...
by Keiji Oenoki, et al. - easyphysics.net
An online physics tutorial. Contents: Velocity; Acceleration; Forces and Newton's Laws; Motion in Two Dimensions; Projectile and Periodic Motion; Waves; Sound; Light; Electric Forces; Electric Field; The Current; Basic Circuit; Advanced Circuit.