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Ch1 153: Matter and Interactions

ch2 153: Matter and Interactions, Chapter 2

Ch 3 -153: Matter & Interactions, Fundamental Forces

ch4-153: Contact Forces, Matter and Interactions

ch5 153: Rate of change of Momentum. Matter & Interactions

ch6 153: The Energy Principle, Matter and Interactions

Block 2 Review, Matter and Interactions

ch7 153: Internal Energy - Matter and Interactions

ch8 153: Quantization, Matter and Interactions

ch9 153: Multiparticle Systems, Matter and Interactions

ch10 153: Collisions, Matter and Interactions

ch11 153: Angular Momentum, Matter and Interactions

ch12 153: Entropy, Matter and Interactions

Vector Boogie!

Const. Acceleration Example

Free Body Diagrams

Angular Frequency vs. Angular Velocity...

Angular Momentum Example (updated, improved slightly)...

Rolling Motion: A worked out example...

Conservation Of Angular Momentum: An Example

excel graph

Worked Example: Rolling motion with friction I

Worked Example: Rolling motion with friction II

Worked Example: Measuring an Extrasolar Planet

Where does v squared over r come from?

Measuring the mass of the Earth with a Flying Pig

Fit Drag vs Velocity models

Working with velocity and momentum vectors.

Make a Graph from your VPython (glowscript) model.

Contact Forces + Curved Trajectory Examples

K,U,K+U "curves"

TLO 2.2, graphing px, py vs t for constant net force

Graphing position, velocity and momentum when Fnet=const

Instantaneous Momentum Principle

Change in position and momentum.

Point Particle System Example

Curving motion: Banked road bed and speed

MEMS Gyro Movie with VPython Model

Angular Velocity/Frequency of a Binary Star system

Description:

Explore the fundamentals of mechanics in this comprehensive 8-hour course covering Matter and Interactions. Delve into topics such as fundamental forces, contact forces, momentum, energy principles, internal energy, quantization, multiparticle systems, collisions, angular momentum, and entropy. Learn through practical examples including free body diagrams, angular frequency calculations, rolling motion with friction, extrasolar planet measurements, and Earth mass calculations. Gain hands-on experience with VPython modeling, graphing techniques, and analysis of various physical systems including binary star systems and MEMS gyroscopes. Master the application of vector mathematics, conservation laws, and kinematic principles to real-world scenarios.

Intro Mechanics

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#Science #Physics #Conference Talks #Collision Conference #Momentum #Computer Science #Information Theory #Entropy #Angular Momentum #Mechanics

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