Wooster Physics Junior Independent Study Reports

2025

• Gustav Bourdon, Modeling the Hong-Ou-Mandel Effect Classically Using a Polarized Mach-Zehnder Interferometer
• Namit Misra, Winging it: Comparing Lift-to-Drag Ratios for Different Plane Designs
• Molly Cohan, Comparing the Relative Hazard Level of Phone Batteries Using Critical Temperature
• Juno Ryan, Designing and Testing an Experiment for Electricity & Magnetism
• Abby Hovorka, Birdie Behavior: An Investigation into the In-Flight Behavior of Badminton Shuttlecocks
• Noah Hankin, Overtone Decay in the Violin 
• Caitlin O’Neil, Reducing Carbon Dioxide Bubble Formation in a Belousov-Zhabotinsky Event Horizon 
• Chive Paradowski, I’m Walking on Fractals: Random Walks on the Sierpinski Triangle

2024

• Iyanu Akinyemi, Going Unsteady: The Dynamics of Unicycles
• Lily Baker, Examining Polystyrene Nanostructures with Atomic Force Microscopy
• Alex Berggren, Analysis of Temperature’s Effect on Pitch for Wind Instruments
• Karmellah Buttler, Cellular Automata Models of Snow Crystal Growth in Python
• Al Cawley, Studying Solar Coronal Jets
• Aeralyn Flynn, Fixing the Optical Tweezers Experiment
• Nina Hanus, The Aerodynamics of a Rugby Ball
• Eric Johnson, Effects of Luminous Flux and Wavelength on Silicon Solar Cells
• Tali Lansing, BZ Spirals on Curved Surfaces
• Madelyn Noll, Comparing the Drag Force and Drag Coefficient for Lacrosse Balls of Varying Surface Condition
• Augustus (Gus) Thomas, Evaluating Uncertainties in BZ Simulations
• Naz Younus, Crystal Tilt: Phase Shift in Interferometry

2023

• Yohannes Abateneh, Music of the Terevelyan Thermal Rocker
• Sahil Bindal, Building a Piezoelectric Road
• Nick Gaba, Empirical Characterization of Fly Rods and Connections to Casting Behavior
• Amanuel Jissa, The Hysteresis Curve and the Ferromagnetic Domains: Impurity of Crystals
• Abrar Khondker, Using Gravitational Lensing to Estimate Galactic Masses and Dark Matter Content of Samples from the Sloan Lens ACS Survey
• Kelly Kim, The Inharmonicity of a Violin
• Aidan Mason, Creating Stationary Waves in a Reaction-Diffusion-Advection System Using the Belousov-Zhabotinsky Reaction
• Kelsey McEwen, Determining the Trajectory of an Anisotropic Particle Around an Optical Nanofiber
• Luke Wilson, Measuring Earth’s Rotation with a Compton Generator

2022

• Whitford (Dean) Brown, Hitting Baseballs: It’s not Rocket Science
• Harrison Clayman, Measuring Resistance Through Temperature
• Daniel Cohen Cobos, Simulating a Die to explore Chaos Theory
• Olivia Green, A Deeper Look into the Weakly Damped Oscillator: Exploring the Properties of Galileo’s Physical Pendulum
• Davis Patterson, The Mechanics of Pole Vaulting
• Raisa Raofa, Investigating Displacement Sensitivity of Michelson Interferometer
• Michael Scarberry, The Chaotic Candle Seesaw
• John Schmidt, An Experimental Determination of the Kinetic Friction Coefficient of a Miniature Pool Table
• Connor Streeter, Corroborating the inside-out formation of disk galaxies at z ≈ 1 through detailed decomposition of their UV and Hα emission spectra
• Sara Wargo, Use of a Nikon DSLR Camera to Evaluate the Effect of Moonlight on Nighttime Visibility

2021

• Bennett Anderson, The Investigation of Germanium Sample Properties
• Shivam Bhasin, Finding the Figure-Eight Solution to the Three-Body Problem for a Double Binary Star System Using Mathematica
• Teague Curless, The Application of Idealized Models to Isolate Dominant Features of a Physical Double Pendulum 
• Luke Eisnaugle, Small-Scale Percolation in a Physical Experiment
• William Hilbert, Using a Sensitive Torsion Pendulum to find Newton’s Gravitational Constant
• Jonathan Logan, A Galilean Moon Braking System: Fuel Conservation for a Chemical Spacecraft Entering Jovian Orbit
• Lillian Miller, Oh What a Drag: Determining Drag Force and Drag Coefficient Area for Five Paper Airplane Designs
• Ben Stern, An Experimental Investigation of Slip-Stick Friction in a Block-Spring Earthquake Model
• Melita Wiles, Investigating the fractal dimension of clouds to minimize uncertainty in climate models
• Haoge Yan, Rolling Bottle Experiment

2020 Spring

• Mili Barai, Confirming Newton’s and Stokes’ model of Viscous Torque
• Yuchen Gan, Testing Thermal Conductivity With Angstrom Method
• Dani Halbing, Making the Unpredictable Shot More Predictable: Testing the Effect Panelling and Construction Has on the Predictability of Soccer Ball Flight
• Gentaro Nakata, Examining The Accelerometer of a Smartphone
• Carlos Owusu-Ansah, Surface Ripples as Thermal Excitations
• Handeul Son, The Measurement of the Maximum Deformed Depth of a Can Using Double-Exposure Holographic Techniques
• Henry Whyte, The Duality of Light

2019 Fall

• Megan Fisher, Using a Light Bulb Filament to Verify Power-Temperature Proportionality in an Approximate Blackbody Radiator
• Mattaeus (Matt) Klonowski, Brief Exploration of Superconductivity’s Temperature-dependence
• Craig Klumpp, Measuring the Drag Coefficient of a Swimmer with a Parachute
• Andrew Kunkel, Estimating G Using a Gravitational Torsion Balance
• Huikang (Niall) Qian, Using a laser to delay a particle
• Katherine (Katie) Shideler, Measuring Energy Dissipation Within Various Granular Matter by Means of Hacky Sacking
• Xinchen (Ariel) Xie, Coulomb’s Law and Leakage of Charges
• Yang (Fish) Yu, The Stefan-Boltzmann Law

2019

• Abigail Ambrose, The Effect of Charge and Distance on the Electrostatic Force
• Adam Deeley, Exploring Aerodynamic forces on 3D Printed Propellers
• Benjamin Hessman, Falling into Chaos
• William (Christian) Julius, The So-Called Unpredictable Pitch: The Knuckleball
• Nicholas Rosner, Experimental and Simulated Explorations of Feynman’s Disk Paradox

2018

• Hwan (Michelle) Bae, Transitioning to Chaos in a Simple Mechanical Oscillator
• Daniel Blaikie, Conserving angular momentum of two spinning disks before and after collision
• Carson Bullock, Chaos in a Driven Mechanical Oscillator
• Haidar Esseili, Calculating the Feigenbaum Constants In A Nonlinear RLD Circuit
• Chase Fuller, The Young and Feynman Experiments: Is Light a Wave or a Particle?
• Yuxuan (Kenny) Huang, How does tuned mass damper affect vibration with different viscosity and the mass ratio
• Wan Hang (Vincent) Hui, Properties of Traversable Wormholes in Spacetime
• Ben Jenkins, Flips are Fun: A Study in the Conservation of Angular Momentum of a Non-Rigid Human Body
• James McElroy, Phase Shifts due to Thermal Conductivity
• David Morrow, Using Ferrofluid as a Field Magnet: a Ferrofluid Electromagnetic Generator
• Sam Nash, Characterizing Germanium with the Hall Effect
• Danny Renbaum-Koss, Determining Tuned Mass Damper Efficiency: SHAKE ’N QUAKE
• Asaki Takahashi, Self Design: Sync Test of Non-Cohesion Bead Pile
• Joe Theiss, Measuring Fluid Flow in a T-Junction Pipe with Colored Dye

2017

• Emma Brinton, Testing the Success in Creating Laminar Flow Using a Couette Cell Apparatus
• Gabe Dale-Gau, Stochastic Resonance in a Hysteretic Circuit
• Collin Hendershot, Conservation Laws in Symmetric Systems
• Kyle McNickle, Trapping Polystyrene Spheres Using “Optical Tweezers”
• Jack Mershon, Viability of Heat Expansion Driven Water Propulsion System Through Computational Analysis
• Nathaniel Moore, Mekbuda: Cepheids and Photometry
• Nathaniel Smith, Modeling Solar Sail propulsion in Spacecraft using Xcode Software
• Zane Thornburg, A Quantum Paradox: The Double Slit Experiment
• Avi Vajpeyi, Stokes’ and Newton’s Viscous Drag
• Justine Walker, Building a Passive Robot for Active Learning

2016

• Alex Gould, Acoustic Trapping: A Theoretical Analysis and Computational Implementation
• Herokazu Endo, Proving the Coulomb’s Law and Finding the Coulomb’s Constant from Two Charged Spheres
• Roy Hadfield, Rotational Analogies for Viscous Drag
• Dylan Hamilton, Singing in the Wind: Numerically Solving the Navier-Stokes Equations with Movable Boundary Conditions
• Marc Manheim, Lead Zeppelin: An Investigation into the Feasibility of a Modern Vacuum Balloon
• Robin Morillo, Burning Up: The Effect of Slope Upon Forest Fire Propagation
• Preston Pozderac, Gone With the Wind: An Investigation into the Flight Dynamics of Discs
• Ziyi Sang, Quantum Decoherence – The Emergence of the Classical World from The Quantum World
• Michael Wolff, Measuring Thermal Conductivity by Angstrom’s Method

2015 Spring

• Mitchel Gavin, Investigating the Dynamics of Leidenfrost Droplets
• Laura Grace, An Investigation into the Impact of Particle Mass and Liquid Surface Tension on the Capillary Force Between a Floating Particle and a Nearby Massive Wall
• Carlos Gonzalez, Using Holographic Techniques to Evaluate Deformations of a Stressed Aluminum Can
• Colm Hall Determining Sphere Size Through the Observation of Brownian Motion
• Spencer Kirn Separation of Seyferts and LINER Galaxies Using Eddington Ratio Derived from the Spectral Energy Distribution
• Johanna Malaer Determining the Relation Between the Power Radiated by a Black Body and its Absolute Temperature
• Noah Megregian, Measuring Particle Concentration Through Turbid Suspension
• Calvin Milligan, Chaotic Analysis of a Mechanical Oscillator with Bistable Potential by Poincare Mapping and Phase Space Analysis
• Diego Miramontes Delgado, Measuring the Magnetic Permeability Constant μ0 Using a Current Balance
• Graham Schattgen, How Center of Mass Affects the Acceleration and Final Velocity of a Pinewood Derby Car
• Nate Stone, Examining the Effect of Additional Driving Forces on a Mechanical Oscillator
  

2014 Fall

• Michael Bush, Impact of the Gravitational Force on Star Formation
• Nathan Johnson, Novel Methods of Avalanche Duration Measurement
• Andrew King-Smith, Creating Laguerre-Gaussian Modes Using a Spatial Light Modulator
• Matthew King-Smith A Nonlinear Electrical Circuit Exhibiting Period Doubling Bifurcation and Chaotic Behavior
• Maggie Lankford Using Double-exposure Holographic Techniques to Evaluate the Deformation of an Aluminum Can Under Stress
• Yash Lohia, The Spin-orbit Interaction of an Electron in a Cylindrical Potential
• Paroma Palchoudhuri,A Study of the Phenomenon of Spontaneous Parametric Down-Conversion
• Catherine Tieman, A Simulation of Social Forces and Collective Motion
• Trent Ziemer, The Development and Numerical Modeling of a Chua Circuit as a Pedagogical Tool
  

2014

• Shawn Bowman, The Effect of Baseball Seam Height on Magnus Force
• Nicolae Istrate, Determining the Critical Temperature of YBa₂Cu₃O₇Superconductor by Using a Four-point Probe and Type-T Thermocouple
• Brian Maddock, Computer Simulation of the Expansion Mechanism of Osorb®
• Saul Propp, Period Doubling Rate to Chaos in a RLD Circuit
• Jai Ranchod Brownian Motion of Polystyrene Spheres
• Joseph Smith, Chaos and Chance: Simulating a Two-dimensional Die Roll
• Amanda Steinhebel, Investigation of Fine-Tuning through the Variation of Fundamental Constants
• Elliot Wainwright, Particle Size Characterization in Turbid Colloidal Suspensions

2013 Spring

• Evan Hagedorn, Physics of Swimming: Conditions that Affect the Passive Drag on a Swimmer in Streamline Position
• Benjamin Harris, Modeling Earthquake Seismology
• Min Sung Kim, Space-Time Curvature of Unusual Metrics
• Vanessa Logan, Weight and Strength Dependency in Cheerleading Stunts
• Danielle Shepherd, Drivers Start Your Engines: A Comparison of the Forces on Race Cars and Toy Cars
• Prakrit Shrestha, Causal Dynamical Triangulation in Three Dimensions: Tiling Spacetime with Tetrahedrons
• Deepika Sundarraman, The Manipulation of Photon Spatial Wave Function by Polarization and Parity
• Ian Wilson, The Effect of Surface Roughness on the Magnus Force

2012 Fall

• Theresa Albon, Plantar Force Distribution for Increasing Heel Height Within Women’s Shoes
• Lorenzo Dumancas, Stochastic Resonance in a Bistable Mechanical System
• Tyler Rhoades, Exploring Electromagnetic Acceleration of Rail Guns
• Michael-Erik Ronlund, Modeling Brownian Motion with Elastic Collisions
• Syne Salem, Chaos in the Stadium Quantum Billiards
• Matt Schmitthenner, Modeling the Duffing Equation with an Analog Computer
• Philip Wales, Effect of the Orientation of a Magnetic Field on the Resistance of a YBCO Superconductor
  

2012

• Dan Axe, Observing Sound Waves in a One-dimensional Acoustic Metamaterial
• Andrew Sopher, Force Induced on the Brain by Heading Soccer Balls
• Tom Gilliss, Simulating a Magnetized Bead Pile
• Lily Christman, Modeling Geophysical Waves with Gelatin
• Duncan Price, Shear-Thickening Fluid
• Andrew Blaikie, The Gravitational Potential Between Two Line Segments
• Karl Smith, Querying Qubits Creates Quantum Computers
• Sam Mermall, Three Dimensional Motion Tracking from Stereo Video

2011

• Mohammad Saif Ahmad, Bend It like Magnus: Simulating Soccer Physics
• Patrick Butler, A Brief Study of Spherical Ballistics and the Magnus Effect
• Matt Damon, Shake, Shake, Shake Tacoma
• Norman Israel, Two Dimensional Causal Dynamical Triangulation
• Larry Markley, //: Beyond the Plane
• Alyse Marquinez, Splish Splash: Modeling Diving
• Katsuo Maxted, Magnetic Field Complexity for Current-carrying Toroidal Coils
• Margaret Raabe, Comparing the Performance of Baseball Bats
• Kemal Ramic, X-ray structural analysis: Bragg reflection and Laue diagrams
• David Simpson, Optical Observations of SOMS

2010

• Louisa Catalano, Superconductivity
• Roger Klein, Determining the Critical Temperature of a YBa₂2Cu₃O₇ Superconductor at Varying Currents Using a Four-Point Probe
• Amanda Logue, A Non-Morphological Method to Isolate Red Spiral Galaxies
• Alex Saines Holography: A Swan of One Color
• Alex Sullivan, Aerodynamic forces acting on an airfoil

2009

• Corwin Atwood-Stone, /. 3D
• James Rob Daniels, Separation of Glass Spheres from Silver Coated Glass Spheres
• Alison Huff, Coulomb Balance
• Heather Moore, Verifying Ampere’s Law and Determining the Permeability of Free Space
• Ingrid Thvedt, Indirectly Exploring the Inner Structure of Spherulites
• Mike Winters, Musical Mapping of Chaotic Attractors
  • The music files for Fig. 8 , Fig. 9, Fig. 10, Fig. 11, Fig. 12, and Fig. 13 are available here.

2008

• Averell Gatton, Visually Exploring the Einstein Field Equations
• Matthew Gorski, Bohmian Quantum Mechanics and the Finite Square Potential Barrier
• Evan Heidtmann, Simulating Bragg Diffraction to Understand Divergence from Theory in an Introductory Laboratory Experiment
• Frank King, Finding the critical temperature of a YBCO superconductor using a voltage probe. 
• Mary Mills, Analyzing Fractal Dimensions and Self-Similarity in Chaotic Light Scattering 
• Martha Roseberry, Drip Drop: A Brief Study of the Dripping Faucet 
• Henry Timmers, Holographic Interferometry of a Stressed Pop Can
• Mike Zappitello, A Computer Program to Simulate Bird Flocking
• Mark Zimmerman, Modeling Two Dimensional Incompressible Fluid Flow with the Navier Stokes Equations 

2007

• Mateo Chinchilla, Modernizing the Cavendish Experiment
• John Gamble, Using toy dynamos to model the sun’s magnetic field
• Howard Henry, Determining the Surface Tension of Water via Light Scattering
• Kirsten Larson, The Effects of Moons on Saturn’s Ring System
• Kelly Patton, Studying the Effects of Filling a Helmholtz Resonator with Spheres
• Joseph Thomas, The Mpemba Effect: Studying the effects of initial temperature, evaporation, and dissolved gasses on the freezing of water
• Mark Wellons, The Stefan-Boltzmann Law

2006

• Mike Davis, The Spring-Block Model of Earthquakes
• Stephen Poprocki, Measuring the surface tension of water from the diffraction pattern of surface ripples
• Jon Rosch, The Effects of Fluid in a Can Rolling Down an Incline 
• Sarah Suddendorf, Double Exposure Holography
• Danny Tremblay, Resonance in a piezoelectric material 
• Myat Tun, Using light scattering method to find the surface tension of water
• Nathan Utt, Contraction of a Free Falling Liquid Jet
• Lisa May Walker, The random walk of radiation from the sun 

2005

• Jeremy Hohertz, Measurement of the diameter of polystyrene spheres using photon correlation spectroscopy
• Andrew Kindschuh, Percolation of a Liquid Through a Porous Solid
• Kathleen McCreary, A Study of the Motion of a Free Falling Shuttlecock
• Katherine Olaksen, Simulation Verifying the Ideal Gas Law
• Danny Shai, Investigation of a Blazed Reflection Grating 
• Angie Triplett, Finding the Spin of a Softball Pitch

2004

• Andy Brinck, Compton scattering off an Aluminum target at angles of approximately 180 degrees and 90 degrees
• Austin Carter, Stefan-Boltzmann Law
• Mark Lightfoot, Coulomb Balance
• Saleh Satti, The Perfect Basketball Shot
• Dan Utley, A Study of Vibrating Objects using Time-Average Holographic Interferometry

2003

• Chris Doherty, Collision Investigation
• Katie Frato, Characterization of an Unknown Polymer Using Static and Dynamic Light Scattering
• Nick Harmon, The Compton Effect
• Dave Merriman, Measuring the Critical Temperature of a High Temperature Superconductor
• Tom Spears, The Verdet Constant of Flint Glass
• Brad Thomas, A Look at the critical temperature of a YBa₂Cu₃O₇ ceramic superconductor
• Nithya Venkataraman, The Observation of Crystalline Structures of Evaporated 8-arm Star Polystyrene in Methylcyclohexane

2002

• Clinton Braganza, Building and Testing a Chaotic Jerk Circuit
• Dan Brubaker, A Mechanical Model to Investigate Nonlinear Phase Transitions
• Christie Egnatuk, The Hall Effect
• Nick Hanson, Verification of the Compton Effect
• Ryan Hartschuh, Physics of Punting a Football
• Brad Lignoski, Bicycle Stability: Is the Steering Angle Proporational to the Lean?
• Joshua Martin, A Computational Simulation of the Untying of Knots
• Jeff Moffitt, The Separation Dependence of Viscous Damping Coefficients
• Derek Somogy, Surface Tension Waves
• Becky Urban, Frustrated Total Internal Reflection

2001

• Sara Connolly, Hydraulic Jumps
• Giovanni Cueto, The Rate of Optical Readout on an Optical Disk
• Matt Krivos, Optical Properties of CT-DNA
• Christopher Locke, Phase Transitions of Mixtures of the Nematic Liquid Crystals 5CB and MBBA Using Microscopic Techniques
• David J. Miller, Chaotic Light Scattering in Scatterers with 4 and 8 Exit Modes
• Rob Sweeney, Using Double-Exposure Interferometry to Measure Thermal Expansion in Aluminum

2000

• Lauren Ault, Modeling Airplane Wings
• Andrew Bouchard, Angstrom’s Method of Determining Thermal Conductivity
• Rachel Mary Costello, Internal and External Behavior of a Simulated Bead Pile
• Scott Hughes, Magnetic braking: Finding the effective length over which the eddy currents form
• Amy Lytle, Angstrom’s Method of Measuring Thermal Conductivity
• Christopher Templeman, The Compton Effect

1999

• Geoff Bonvallet, Differential Scanning Calorimetric Study of the Nematic Liquid Crystal 5CB
• Sridhar Chandramouli, Hall Coefficient of Germanium
• Sean English, Stephan Boltzmann Law and Boltzmann’s Constant
• Andrew Nowicki, Forces that Govern a Baseball’s Flight Path
• Tim Sir Louis, Holography

1998

• Josh Bozeday, Laser Cavity Analysis
• Dinki Ghosh, Moment of inertia and nutation of a captured gyroscope
• Manon Grugel, Modeling the viscous torque acting on a rotating object
• Andy Kuck, Measurement of the Hall coefficient in a germanium crystal
• Christy Rauch, Chaos in a Driven Nonlinear Electrical Oscillator: Determining Feigenbaum’s Delta
• Paul Rebillot, Determing the Ratio Cp/Cv Using Rucchart’s Method
• Nathan Schiffrik, Examination of Viscous Torque Relationships
• Zakir Thaver, Resonance phenomenon in a forced damped oscillator
• David Walkenhorst, Determining Surface Tension by Light Scattering
• Carrie Williams, Application of photon correlation spectroscopy to a macromolecular system

1997

• Jason Darfus, The Faraday Effect
• Sahibzada Amir Hassan, The Spectrum Analyzer and the Mode Structure of a Laser
• Jodee Jones, Astronaut Momentum
• Jon Keim, Colliding Pulses on a String
• Bryan Prusha, Chaotic Circuit
• Kashif Sayan, Faraday Effect Rotation for Water and Flint Glass
• Woody Shew, Inverted Pendulum

1996

• Erica N. Bramley, The Faraday Effect
• Delaney D. Demay, Measuring the Displacement of A Spider Web Impacted by a Flying Projectile: An Experiment in Biomechanics
• Christopher J. Ditchman, Autocorrelation of Filtered White Noise
• Noah Johnston, Frustrated Total Internal Reflection:Evanascent Waves 
• Francesca Mascarenhas, Helmholtz Resonators
• Anindya Mukherjee, Speed of Light 
• Ali Rauf, Forced Damped Harmonic Oscillator
• Chris Spillman, Resonance in a Piezoelectric LTZ Ceramic
• Chigomezgo Thindwa, Conservation of Angular Momentum

1995

• Darwin T. Keith-Lucas, The Density of Water
• Ali Özgenç, Motion of a Leaky Pendulum
• Cyrus F. Screwvala, The Chaotic Dynamics of a Bouncing Ball
• Salman Saeed, Stabilization of a Multimode He-Ne Laser Using Thermal Feedback