May 16th, 2003 © 2002-2003, Team 02021 Nonlinear Dynamics Laboratory Equipment Andrew DickJoe Houtz Jeremy RedleckiAshley Rice James Streeter Customer:

Slides:

Advertisements

Similar presentations

Team 47: Ali Albayat Kyle Barringer James Butler Geoffrey Daniel Joe Sobeski.

Advertisements

An Introduction to Electrostatic Actuator

Selection of measuring instruments

EET Survey of Electronics Chapter 7 - Simple Series, and Parallel circuits.

Nonlinear Dynamics Laboratory Equipment Andrew DickJoe Houtz Jeremy RedleckiAshley Rice James Streeter Client: Mechanical Engineering Dept. at RITFaculty.

Multidisciplinary Engineering Senior Design Automated Plasma Generator Test System Preliminary Design Review 11/11/05 Project Sponsor: MKS, ENI Incorporated.

Laser Shoot-Out Game By Steven Noto and Laura Miller Advisor: Steven Gutschlag April 4, 2000 Senior Project Status Report 2.

Controls Lab Interface Improvement Project #06508Faculty Advisors: Dr. A. Mathew and Dr. D. Phillips Project Objectives This work focused on the improvement.

Mathematical Analysis of a Demonstrative Chaotic Circuit Karen Kelleher and Dr. Thomas Kling, Department of Physics, Bridgewater State College, Bridgewater,

Design of a Control Workstation for Controller Algorithm Testing Aaron Mahaffey Dave Tastsides Dr. Dempsey.

Film Thickness Measurement Julian Peters Joe Fitzmyer Brad Demers P06402.

Optical Stage Redesign Team 4025 Senior Design II – Spring

Redesign of a Submersible Autonomous Data Collection and Transmission System (S.A.D.C.A.T.S.) Group Members: Matthew Rhoads BS ME (Lead) - Ballast, Hull.

Laser Shoot-Out Game By Steven Noto and Laura Miller Advisor Steven Gutschlag February 15, 2000 Senior Project Status.

Pressure Measurement Why is it important?. Pressure Measurement Asses the situation –What is the range of pressures to be measured? –Is pressure dynamic.

Schematic Symbols The Key to Understanding Wiring Diagrams.

Harvesting Waste Energy: Bicycle Power Generation RIT-MSD-I Detailed Design Review Winter/Spring P12414.

MSD P15280 RIT HOT WHEELZ TEST BENCH. AGENDA ❖ Review Problem Definition Material ❖ Review System Design Material ❖ Sub-System Design Review ▪Motor.

+ Using Ohm’s Law to Build a Voltage Divider 1. + Learning Objectives Understand and demonstrate the engineering design process Use Ohm's Law as a tool.

Electromagnetic induction Mohammed Rashed Hamad Abdulrahman Abdulaziz Abdulrahman

54 CHARGING SYSTEM CHARGING SYSTEM.

Building a Photodetector to Observe the Polarization of Light Kevin J. McElwee Bridgewater State University, Bridgewater MA Mentor: Edward F. Deveney.

Electronics and Control Systems Unit 4 Revision Portfolio Student Name.

Spectrometer Solenoid Update Steve Virostek Lawrence Berkeley National Lab Roy Preece Rutherford Appleton Lab October 28, 2011 MICE Collaboration Meeting.

Loading Apparatus for High Velocity Tissue Rupture Mechanical Engineering Dalhousie University Senior Design Project Winter 2010.

Modeling of the Memristor in SPICE Introduction In 1971, professor Chua predicted the existence of the fourth circuit element – memristor [3]. The memristor.

1 1 Electricity and Circuits Career Portals in STEM.

Chapter 5 Engineering Tools for Electrical and Computer Engineers.

Team: James Mazza, Andre Berwin, Peter Dunning, Nathan Fulcher, Andrew Watson, Travis Bardsley, Anthony Parker April 5, 2013.

Texas Integrated Energy Solutions. Development Team, Background, Objective, & Justification 2.

A Mathematical Analysis of a Sun Tracking Circuit for Photovoltaic Systems Dr. S. Louvros and Prof. S. Kaplanis T.E.I. of Patra, Greece.

Physics Chapter 20: Circuits and Circuit Elements.

Applied Circuit Analysis Chapter 3 - Power and Energy Copyright © 2013 The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

SDMAY11-01 Advisor: Dr. Ajjarapu Team Members: Luke Rupiper Shonda Butler Andrew Nigro Ryan Semler Chad Hand.

Power and Power Measurement ENGR 10 – Intro to Engineering College of Engineering San Jose State University (Ping Hsu and Ken Youssefi) 1 Introduction.

+ Using Ohm’s Law to Build a Voltage Divider 1. + Learning Objectives Understand and demonstrate the engineering design process Use Ohm's Law as a tool.

Announcements Please read Chapter 3; start on Chapter 6

THE ROCHESTER INSTITUTE OF TECHNOLOGY MICROGRAVITY DROP TOWER P14651 Project Description Background: Microgravity is a condition in which objects experience.

Final Demonstration Team 2A The Charles Machine Works Downhole Generator Project.

1 CHAOTIC CIRCUITS The way the electron bounces. 2 TOPICS l Linear Circuits –Inductor –Diode l Non-Linear Circuits –How can we tell if a circuit is behaving.

Magnetism 5 Transformers & Generators. Transformer Device in which alternating current in one coil of wire induces a current in a second wire. Primary.

A New Methodology for Systematic Conceptual Design by means of Generalized Discrete Representations Research group conducted by Dr. Offer Shai Department.

1 Universal Bicritical Behavior in Unidirectionally Coupled Systems Sang-Yoon Kim Department of Physics Kangwon National University Korea  Low-dimensional.

Physics 106 Lesson #12 Series & Parallel Circuits II

A Simple Chaotic Circuit Ken Kiers and Dory Schmidt Physics Department, Taylor University, 236 West Reade Ave., Upland, Indiana J.C. Sprott Department.

Design a Logic Probe Experiment 20.

P16221 – FSAE Shock Dynamometer Problem Definition Review.

Aerospace and Mechanical Engineering University of Arizona 1/21/2016 Microstructural Analysis of Soft Tissues Amanda E. Eskinazi Mentor: Dr. Jonathan Vande.

A SEMINAR ON 400 KV GSS(RRVPNL) BIKANER.

P13631: Gravity Fed Flow Process Control Teaching Aid An RIT education couples theory in lecture with practical application in lab. In the past, carts.

Self Switching Power Supply. Introduction Self Switching Power Supply  Embedded system requires a regulated power supply.

FSAE Engine Management System Adolfo Pereira Donald Zucaro Lee McDade Jeremy Belge Sun-Jet Liu Marcin Trelinski Advisor: Dr. Alan Nye Sponsor: FSAE Formula.

Technical English Unit 45: Circuits and components Dr. Basil Hamed Technical English Islamic University of Gaza April, 2016.

AGROFARM WEATHER MONITOR USING LabVIEW. INTRODUCTION Innovation in agriculture field Implementing instrumentation tech. in agricultural field The quantity.

6.2 ELECTRONICS. CAPACITOR An electrical device used to store electrical charge.

Chapter 3 Voltage. Objectives After completing this chapter, you will be able to: –Identify the six most common voltage sources –Describe six different.

ELECTROTECHNIC. LARGE RANGE OF ROTARY MACHINES AND ACCESSORIES Educational equipment & solutions for technical training institutes & Universities 90W.

Connect 4 Change the terms in the following template to customize Connect 4 for any topic. You will need to copy one copy of one of the two templates.

Unit 45: Circuits and components Dr

Ping-Pong Ball Levitation

Unit 45: Circuits and components Dr

Chapter 3 Voltage.

The Key to Understanding Wiring Diagrams

Team 11 Adam Fisher Presented by: Mitchell Quetant Nathan Hammond

Engineering Tools for Electrical and Computer Engineers

Introduction of Chaos in Electric Drive Systems

VirtuLab: Web Based Flow Visualization Facility

The Key to Understanding Wiring Diagrams

Unit 45: Circuits and components Dr

Example Example 1: An electric lamp is rated 110 W, 200 V. When the lamp is operated at its rated power and voltage, calculate a) the current flowing through.

Presentation transcript:

May 16th, 2003 © , Team Nonlinear Dynamics Laboratory Equipment Andrew DickJoe Houtz Jeremy RedleckiAshley Rice James Streeter Customer: Mechanical Engineering Dept. at RITFaculty Mentor: Dr. J.S. Török

May 16th, 2003© , Team Outline Project Goals Preliminary Design RedesignFabrication Equipment Testing Experiments and Demonstrations ConclusionQuestions

May 16th, 2003© , Team Project Goals Design, build, and test nonlinear dynamics laboratory equipment to aid in the teaching of nonlinear dynamics Develop a set of procedures and manuals for experiments and demonstrations

May 16th, 2003© , Team Preliminary Design Chua’s Circuit Nonlinear Electrical System Nonlinear Electrical System Chua’s Diode Chua’s Diode Speakers Speakers Acrylic Cover Acrylic Cover Multi-well Oscillator Magneto-Elastic System Magneto-Elastic System Magnets Magnets Motor & Eccentric Mass Motor & Eccentric Mass Strain Gauges Strain Gauges

May 16th, 2003© , Team Preliminary Design Chaotic Waterwheel Acrylic Wheel Acrylic Wheel Pillow Block Bearing Pillow Block Bearing Encoder Bearing Encoder Bearing Brake Brake Steel Base and Frame Steel Base and Frame Submersible Water Pump Submersible Water Pump Flow Meter Flow Meter

May 16th, 2003© , Team Redesign Rare Earth Magnets Multi-well Oscillator Multi-well Oscillator Printed Circuit Board Chua’s Circuit Chua’s Circuit Ground Fault Circuit Interrupt Chaotic Waterwheel Chaotic Waterwheel Printed Circuit Board Design

May 16th, 2003© , Team Redesign Optical Encoder Chaotic Waterwheel Chaotic Waterwheel Air Bearing Chaotic Waterwheel Chaotic Waterwheel Air Bearing Brake Assembly Optical Encoder Coupling

May 16th, 2003© , Team Fabrication

May 16th, 2003© , Team Equipment Testing – Chua’s Circuit Testing Procedure Modeled circuit Modeled circuit PSpice software Simulated circuit while varying resistor Simulated circuit while varying resistor Produced output voltage time series Built circuit Built circuitTroubleshooting

May 16th, 2003© , Team Equipment Testing – Chua’s Circuit Single Period BehaviorHigh Period BehaviorChaotic Behavior

May 16th, 2003© , Team Equipment Testing – Multi-well Oscillator Testing Procedure Built electromagnet test bracket Built electromagnet test bracket Varied unbalanced mass connected to motor Varied unbalanced mass connected to motor Collected strain gauge output though LabVIEW Collected strain gauge output though LabVIEW Analyzed steel beam using Laser Vibrometer Analyzed steel beam using Laser Vibrometer

May 16th, 2003© , Team Equipment Testing – Multi-well Oscillator Periodic above one magnetChaotic above both magnets Periodic above two magnets

May 16th, 2003© , Team Chaotic Oscillation

May 16th, 2003© , Team Equipment Testing – Chaotic Waterwheel

May 16th, 2003© , Team Equipment Testing – Chaotic Waterwheel Testing Procedure Varied system parameters Varied system parameters Observe a range of nonlinear behaviors Observe a range of nonlinear behaviors Water Inflow Rate IncreaseDecrease System Stability Decrease Increase Control Parameters Primary: Water Flow Rate Primary: Water Flow Rate Secondary: Wheel damping (brake) Secondary: Wheel damping (brake)

May 16th, 2003© , Team Experiments and Demonstrations Demonstrations Show nonlinear dynamics and chaotic behavior to students Show nonlinear dynamics and chaotic behavior to studentsExperiments Objectives Objectives Background Background Prelab Prelab Experiments Experiments Analysis Analysis Questions Questions Design Oriented Experiments R·I·T Mechanical Engineering

May 16th, 2003© , Team Experiments and Demonstrations Chua's Circuit Period-Doubling Bifurcation Period-Doubling Bifurcation Orbit Diagram Orbit Diagram Rossler System a=b=0.2, c=3.5 X value of system Y value of system Control Parameter Orbit Diagram

May 16th, 2003© , Team Experiments and Demonstrations Chaotic Waterwheel Nonlinear and Chaotic Behavior Nonlinear and Chaotic Behavior Attractor Reconstruction Attractor Reconstruction X(t)=[B(t),B(t+  )] 2-D AttractorReconstructed Attractor Chaotic Behavior Nonlinear Behavior

May 16th, 2003© , Team Experiments and Demonstrations Multi-well Oscillator Dynamics of Forced Oscillator Dynamics of Forced Oscillator Attractor Reconstruction Attractor Reconstruction Poincaré Map Poincaré Map P(X)=X(k*n) for forcing period k Chaotic Behavior Reconstructed AttractorPoincaré Map

May 16th, 2003© , Team Conclusion Created 3 unique devices to display nonlinear dynamics Chua’s Circuit Chua’s Circuit Multi-well Oscillator Multi-well Oscillator Chaotic Waterwheel Chaotic Waterwheel On schedule and within budget Potential for future innovations