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Test 1 Review PHY 2010 Fall 2023

Test 1 Review PHY 2010 Fall 2023

Test 3 Review PHY2020 Spr 23

Test 3 Review PHY2020 Spr 23

Test 2 Review PHY2020 S23

Test 2 Review PHY2020 S23

Test 1 Review PHY 2020

Test 1 Review PHY 2020

Test 3 Review

Gyroscopes and Tops

Gyroscopes and Tops

Simulating air resistance with VPython

Simulating air resistance with VPython

test 2 review phy2010 f22

test 2 review phy2010 f22

Test 3 Review for PHY2020

Test 3 Review for PHY2020

Modeling Motion of Charges in Uniform Magnetic Fields with VPython

Modeling Motion of Charges in Uniform Magnetic Fields with VPython

Test 2 Review, PHY2020 Spring 2022

Test 2 Review, PHY2020 Spring 2022

Biot Savart Law Examples

Biot Savart Law Examples

Sources of magnetic fields

Sources of magnetic fields

Derivation of equations for a charging and discharging capacitor

Derivation of equations for a charging and discharging capacitor

Intro to Capacitors

Intro to Capacitors

Conductors in Electrostatic Equilibrium

Conductors in Electrostatic Equilibrium

Using VPython to Find the Electric Field from a Continuous Charge Distribution

Using VPython to Find the Electric Field from a Continuous Charge Distribution

Poisson's equation

Poisson's equation

The differential form of Gauss's law

The differential form of Gauss's law

Modeling electric fields of point charges with VPython

Modeling electric fields of point charges with VPython

Coding vector operations, angular momentum, and torque in VPython

Coding vector operations, angular momentum, and torque in VPython

Test 3 review phy2010 f21

Test 3 review phy2010 f21

Collisions

Intro to torque

Intro to torque

Moment of Inertia Examples

Moment of Inertia Examples

Intro to Moment of Inertia

Intro to Moment of Inertia

Derivation of the equation for the Driven, Damped Harmonic Oscillator

Derivation of the equation for the Driven, Damped Harmonic Oscillator

The force is minus the gradient of the potential energy

The force is minus the gradient of the potential energy

Using VPython to model the damped harmonic oscillator

Using VPython to model the damped harmonic oscillator

Damped Harmonic Oscillator

Damped Harmonic Oscillator

Air resistance and drag

Air resistance and drag

Test 2 review PHY2010 Fall 21

Test 2 review PHY2010 Fall 21

Gravitational potential energy

Gravitational potential energy

Potential Energy for Conservative Forces--Multiple Derivations

Potential Energy for Conservative Forces--Multiple Derivations

Derivation of the equation for work

Derivation of the equation for work

Coding angular motion

Coding angular motion

Centripetal force derivation

Centripetal force derivation

A deeper look at the simple harmonic oscillator

A deeper look at the simple harmonic oscillator

Intro to Sound

Stress, strain, and Young's modulus

Stress, strain, and Young's modulus

Stiffness of interatomic bonds

Stiffness of interatomic bonds

Bonds as springs

Bonds as springs

Test 1 Review PHY2010

Test 1 Review PHY2010

Simulating Newton's Universal Gravitation in VPython

Simulating Newton's Universal Gravitation in VPython

Iterative Predictions of Motion for a Varying Net Force

Iterative Predictions of Motion for a Varying Net Force

Doing math in VPython

Doing math in VPython

Simultaneous fall demo explanation

Simultaneous fall demo explanation

phy 3530 intro

Public vs. Private in VPython

Public vs. Private in VPython

A deeper look at magnetic dipoles

A deeper look at magnetic dipoles

Magnetic Moments and Torque on Current Loops

Magnetic Moments and Torque on Current Loops

Proving Differential Forms of Ampere's and Gauss's Law for Magnetism are True for Long Wire

Proving Differential Forms of Ampere's and Gauss's Law for Magnetism are True for Long Wire

Coding the Biot-Savart Law for a Moving Point Charge Using VPython

Coding the Biot-Savart Law for a Moving Point Charge Using VPython

Polarization of dielectrics

Polarization of dielectrics

An introduction to dielectrics

An introduction to dielectrics

Capacitors in Circuits

Capacitors in Circuits

Coding Potential Difference

Coding Potential Difference

Laplace's Equation

Laplace's Equation

Potential and Electric Field of a Spherical Shell of Charge

Potential and Electric Field of a Spherical Shell of Charge

Multipole expansion

Multipole expansion

Electric Potential and Electric Field for an Electric Dipole

Electric Potential and Electric Field for an Electric Dipole

Electric Fields Store Energy

Electric Fields Store Energy

Using Gauss's Law for non-constant charge densities

Using Gauss's Law for non-constant charge densities

Nested loops and lists in VPython

Nested loops and lists in VPython

Gauss's law for cylindrical and planar symmetries

Gauss's law for cylindrical and planar symmetries

Electric field of a uniformly charged disk

Electric field of a uniformly charged disk

Electric field of continuous charge distributions

Electric field of continuous charge distributions

Coulomb Force Example Problem

Coulomb Force Example Problem

Derivation of the Madelung constant

Derivation of the Madelung constant

Angular Momentum Conservation and Kepler's Laws

Angular Momentum Conservation and Kepler's Laws

Torque and Angular Momentum

Torque and Angular Momentum

Angular Momentum of Rotating Rigid Body

Angular Momentum of Rotating Rigid Body

Angular momentum

Angular momentum

Cross product

Work and Energy for Point Particles vs Extended Objects

Work and Energy for Point Particles vs Extended Objects

Spherical Coordinates and the Moment of Inertia for a Sphere

Spherical Coordinates and the Moment of Inertia for a Sphere

Resonance

Internal Energy

Internal Energy

Damped Harmonic Oscillator Example

Damped Harmonic Oscillator Example

Energy of Damped Oscillators and Quality Factors

Energy of Damped Oscillators and Quality Factors

Fluid Pressure and Buoyancy

Fluid Pressure and Buoyancy

Free Body Diagrams and Friction

Free Body Diagrams and Friction

Free Body Diagrams and Friction

Free Body Diagrams and Friction

Center of Mass

Conservation of Momentum

Conservation of Momentum

Coulomb's Law

Gravity near Earth's surface

Gravity near Earth's surface

Newton's 3rd Law and Universal Gravitation

Newton's 3rd Law and Universal Gravitation

intro to springs

intro to springs

Iterative Predictions of Motion for a Constant Net Force

Iterative Predictions of Motion for a Constant Net Force

Deriving the kinematics equations from Newton's 2nd Law

Deriving the kinematics equations from Newton's 2nd Law

Differential form of Newton's 2nd Law & Impulse

Differential form of Newton's 2nd Law & Impulse

Intro to the course for PHY3530 Fall 2020

Intro to the course for PHY3530 Fall 2020

Introduction to Momentum

Introduction to Momentum

Getting started on your first Vpython assigment

Getting started on your first Vpython assigment

Predicting a new position

Predicting a new position

Coding example using ideas from video on predicting a new position

Coding example using ideas from video on predicting a new position

3D vectors and their notation

3D vectors and their notation

PHY 2010 Fall 2020 Course Introduction

PHY 2010 Fall 2020 Course Introduction

Detecting Interactions and Newton's First Law of Motion

Detecting Interactions and Newton's First Law of Motion