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Fundamentals of Neuroscience, Part 1: The Electrical Properties of the Neuron
Organic Chemistry 1
Mountains 101
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Explore momentum conservation and kinetic energy loss in collisions through Python modeling, unraveling the interplay between mass and velocity.
Explore center of mass, momentum, kinetic energy types, angular velocity, and moment of inertia in particle systems. Gain insights into translational, rotational, and vibrational energy concepts.
Visualize spherical volume elements using Python and VPython, enhancing understanding of sphere geometry and moment of inertia calculations.
Analyze impact forces in the Sanderson v. Paltrow ski trial, examining expert calculations and physics principles to determine accuracy.
Derive the moment of inertia for a sphere and explore a Monte Carlo simulation using Python, enhancing understanding of rotational dynamics.
Learn three effective methods for solving vector addition problems: graphical, law of sines and cosines, and vector components.
Explore principal axes of inertia using a three-mass model, with Python code and visual demonstrations. Builds on previous concepts of moment of inertia and angular momentum.
Calculate center of mass, moment of inertia tensor, and angular velocity vector for three masses using Python. Includes code implementation and mathematical concepts.
Animate a rotating Earth in VPython, building a 3D model to visualize Earth's rotation and sunlight distribution.
Derive gravitational potential energy through work calculations and explore numerical integration using Python for practical applications.
Explore fundamental physics concepts like energy, work, and momentum through practical examples and in-depth explanations of particle behavior and forces.
Explore maximum car speeds on flat, banked, and vertical curves using physics principles and calculations.
Explore stable circular orbits for three equal-mass planets using Python simulations and gravitational calculations.
Explore 3D tide modeling using Python, combining calculation and visualization techniques for a comprehensive understanding of tidal patterns.
Explore contact forces, spring mechanics, and material properties. Dive into normal force, ball-spring models, Young's modulus, and buoyancy concepts.
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