INTRODUCTION Introduction Section 0 Lecture 1 Slide 1 Lecture 1 Slide 1 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011.

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Presentation transcript:

INTRODUCTION Introduction Section 0 Lecture 1 Slide 1 Lecture 1 Slide 1 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500 Lecture 1 Introduction

INTRODUCTION Introduction Section 0 Lecture 1 Slide 2 Lecture 1 Slide 2 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Class Administration and Syllabus Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 3 Lecture 1 Slide 3 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Class:M 3:30 - 6:20SER 005 Instructor:Robert Call SER 222D Office Hours: Faculty Instructor: J.R. Dennison SER 222D Class Web Site: Go to Classes/Class Websites Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 4 Lecture 1 Slide 4 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 5 Lecture 1 Slide 5 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 6 Lecture 1 Slide 6 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 7 Lecture 1 Slide 7 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Intermediate Lab PHYS 3870

INTRODUCTION Introduction Section 0 Lecture 1 Slide 8 Lecture 1 Slide 8 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 9 Lecture 1 Slide 9 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 10 Lecture 1 Slide 10 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 11 Lecture 1 Slide 11 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 How is Physics Done? Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 12 Lecture 1 Slide 12 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What is Physics? “Study of the basic nature of matter and the interactions that govern its behavior.” BORING!!! “How Stuff Works.” True, but vague. “Common Sense Approach to How Things Work” (with units!) Common Sense—A minimal set of simple, straightforward guides. Units—Predictions on a quantitative level

INTRODUCTION Introduction Section 0 Lecture 1 Slide 13 Lecture 1 Slide 13 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Current State of Physics cira 2009 Standard Model QCD Unites E&M, Strong NF, Weak NF Conservation Laws Energy Linear & Angular Momentum Charge, Spin Lepton and Baryon Number Quantum Mechanics Schrodinger/Dirac Equation Probabilistic approach Statistical Mechanics Physics of many particles Fermions and Bosons Partitioning of Energy Thermodynamics Time and Entropy Weinburg-Salom Model QED Unites E&M, Weak NF

INTRODUCTION Introduction Section 0 Lecture 1 Slide 14 Lecture 1 Slide 14 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What is Experimentation? Baird defines experimentation as the process of: Identifying a portion of the world to study (the system) Obtaining information from this system Interpreting this result

INTRODUCTION Introduction Section 0 Lecture 1 Slide 15 Lecture 1 Slide 15 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Observations of the Physical World The system (portion of the world being studied) is well defined Single input (things we can control) affects system Single output (things we cannot control directly) results from interaction of system with inputs Observations characterize the system to within the uncertainty of the measurements SYSTEM Input Output The Simplest (Ideal) System The Universe

INTRODUCTION Introduction Section 0 Lecture 1 Slide 16 Lecture 1 Slide 16 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Complex (or ill defined) system and system boundaries Multiple inputs Multiple output Possible complicating interactions: - Between inputs - Between outputs - Between inputs and outputs - Between outputs and inputs - Between outputs and system - Between observations and system, inputs and outputs SYSTEM Inputs Outputs A Complex System The Universe

INTRODUCTION Introduction Section 0 Lecture 1 Slide 17 Lecture 1 Slide 17 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What is Science? The scientific method goes further in: Developing a description (model) of the system behavior based on observation Generalizing this description (model) to other behavior and other systems That is to say, the scientific method is experimentation and modeling intertwined It is the scientific method that distinguishes science from other forms of endeavor As Neils Bohr famously said, “All science is either physics or stamp collecting.”

INTRODUCTION Introduction Section 0 Lecture 1 Slide 18 Lecture 1 Slide 18 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Method: Leads to new discoveries → how scientific progress is made! Careful measurements, Experiments Models, Empirical Laws, Generalization Hypothesis,Theory

INTRODUCTION Introduction Section 0 Lecture 1 Slide 19 Lecture 1 Slide 19 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What is a Model?

INTRODUCTION Introduction Section 0 Lecture 1 Slide 20 Lecture 1 Slide 20 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Testing a Model?

INTRODUCTION Introduction Section 0 Lecture 1 Slide 21 Lecture 1 Slide 21 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What Is the Role of Scientific Computing? Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 22 Lecture 1 Slide 22 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Using computer hardware and software to facilitate experimentation, modeling and merger of these two: Increased speed and complexity is data acquisition Enhanced data management and presentation Increased speed, accuracy and precision in computations Automation of tasks (including symbolic math and data acquisition!) Enhanced dissemination of results What Is the Role of Scientific Computing?

INTRODUCTION Introduction Section 0 Lecture 1 Slide 23 Lecture 1 Slide 23 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What Is the Role of Scientific Computing?

INTRODUCTION Introduction Section 0 Lecture 1 Slide 24 Lecture 1 Slide 24 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 What are Required Scientific Computing Capabilities?

INTRODUCTION Introduction Section 0 Lecture 1 Slide 25 Lecture 1 Slide 25 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Specific Software for Scientific Computing? Introduction to Scientific Computing PHYS 2500

INTRODUCTION Introduction Section 0 Lecture 1 Slide 26 Lecture 1 Slide 26 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Using computer hardware and software to facilitate experimentation: Increased speed and complexity is data acquisition Automation of tasks (including symbolic math!) Data Acquisition and Instrument Control Instrument Specific Calculator (TI) USB-to-Spreadsheet Macros DataStudio (Pasco Interface)* I-Phone, Android For General Instruments Labview # Labview clones Programming Languages (C++, Visual Basic, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 27 Lecture 1 Slide 27 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Management of large lists of data: Enhanced data management and presentation Automation of tasks Enhanced dissemination of results Spreadsheets and Databases Primary Software Spreadsheets (Excel* and clones) Databases (Access and clones) Related Software Matlab # Graphical software (Igor, Origin and others) Computational Software (Mathcad*, Mathematica #, etc) Programming Languages (C++, Visual Basic, Fortran, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 28 Lecture 1 Slide 28 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Graphical and Tabular presentation of data. Animations: Enhanced data management and presentation Increased speed, accuracy and precision Automation of tasks Enhanced dissemination of results Graphing and Tables Primary Software Graphical software (Igor, Origin and others) Graphical calculators Related Software Computational Software (Mathcad*, Matlab #, Mathematica #, etc) Spreadsheets (Excel* and clones) Programming Languages (C++, Visual Basic, Fortran, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 29 Lecture 1 Slide 29 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Calculating numerical results from numerical inputs: Increased speed and complexity is data acquisition Increased speed, accuracy and precision in computations Automation of tasks Enhanced dissemination of results Computation Primary Software Graphing calculators Spreadsheets (Excel* and clones) Computational Software (Mathcad*, Matlab #, Mathematica #, etc) Related Software Graphical software (Igor, Origin and others) Programming Languages (C++, Visual Basic, Fortran, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 30 Lecture 1 Slide 30 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Calculating numerical results with symbolic inputs. Advanced calculation methods: Increased speed, accuracy and precision in computations Automation of tasks Numerical Methods Primary Software Computational Software (Mathcad*, Matlab #, Mathematica #, etc) Programming Languages (C++, Visual Basic, Fortran, etc) Related Software Graphing calculators Spreadsheets (Excel* and clones) Graphical software (Igor, Origin and others) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 31 Lecture 1 Slide 31 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Calculating numerical results with numeric or symbolic inputs. Advanced statistical methods: Increased speed, accuracy and precision in computations Automation of tasks Statistical Methods Primary Software Statistical Software (SISTAT, etc) Computational Software (Mathcad*, Matlab #, Mathematica #, etc) Related Software Graphing calculators Spreadsheets (Excel* and clones) Graphical software (Igor, Origin and others) Programming Languages (C++, Visual Basic, Fortran, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 32 Lecture 1 Slide 32 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Symbolic manipulation of mathematical (non-numeric) symbols, including algebra, calculus and geometry: Increased speed, accuracy and precision in computations Automation of tasks (including symbolic math!) Symbolic Math Primary Software Symbolic Math Programs (Mathematica #, Maple) Related Software Computational Software (Mathcad*, Matlab #, etc) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 33 Lecture 1 Slide 33 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Definition: Using computer hardware and software to facilitate experimentation, modeling and merger of these two: Enhanced data management and presentation Automation of tasks Enhanced dissemination of results Technical Word Processing Primary Software Word Processor (Word, Wordstar, Open Office and clones) Presentation software (Powerpoint, Open Office and clones) Bibliographic databases and bibliographies (Google Scholar, Web of Science, EndNote Web, Zotero) Related Software Computational Software (Mathcad*) * Class emphasis# Introduction in class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 34 Lecture 1 Slide 34 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in this Class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 35 Lecture 1 Slide 35 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes

INTRODUCTION Introduction Section 0 Lecture 1 Slide 36 Lecture 1 Slide 36 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in this Class

INTRODUCTION Introduction Section 0 Lecture 1 Slide 37 Lecture 1 Slide 37 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes Click on symbol to access home web site. Computer-Aided Mathematics ENGR PHYS 2500, 3750, 3870, ENGR PHYS ENGR CEE 1880,3030.

INTRODUCTION Introduction Section 0 Lecture 1 Slide 38 Lecture 1 Slide 38 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes Click on symbol to access home web site. C++ Fortran Visual Basic Numerical Programming Languages CS 1400, 1405, 1410, 2420, ENGR PHYS MAE 2200, ENGR JAVA CS 3100,3400, ENGR 2450.

INTRODUCTION Introduction Section 0 Lecture 1 Slide 39 Lecture 1 Slide 39 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in this Class Data Acquisition & Instrument Control PHYS 2110, 2120, 2210, 2220, 2500, 3870, PHYS 2500, 3870, 3880.

INTRODUCTION Introduction Section 0 Lecture 1 Slide 40 Lecture 1 Slide 40 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes Technical Word Processing ENGR PHYS 2500, 3870, Computer Literacy CEE MAE 2200, ENGR PHYS 3870, Computer Literacy USU Library Tutorials PHYS 2500, 3870, 3880.

INTRODUCTION Introduction Section 0 Lecture 1 Slide 41 Lecture 1 Slide 41 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes A Real Gem—Urroz Software Resource Page

INTRODUCTION Introduction Section 0 Lecture 1 Slide 42 Lecture 1 Slide 42 INTRODUCTION TO Modern Physics PHYX 2710 Fall 2004 Intermediate 2500 Fall 2011 Scientific Software Used in Other Classes Where to Go From Here? Computer skills are one of the best things to study to enhance your employment opportunities after graduation. Programming Skills C++ CS 1400, 1405, 1410, 2420, ENGR Fortran PHYS MAE 2200, ENGR Visual Basic ENGR JAVA CS 3100,3400, Numerical Methods C++ ENGR Matlab ENGR Fortran PHYS MAE 2200, ENGR Mathcad ENGR PHYS Visual Basic ENGR Instrument Control & Data Acquisition Labview PHYS 2500, 3870, Datastudio PHYS , 3880.