intro221s18

Oral reports:	Ten-minute presentations will be required describing the progress of each student's project (see SCHEDULE). See the article ``The Art of Talking About Science'' by L.Bragg in the journal Science, Vol 154, p. 1613 (1966) for advice.
Written reports:	An experimental report will be required for each laboratory completed. The report will consist of one page of text (typed) with additional pages for relevant figures, plots, and appendices. See Chapter 7 in Experimentation: An Introduction to Measurement Theory and Experiment Design by D.C. Baird for a full discussion of good scientific writing. The grade of each report will include the quality of the measurements and analysis and the efficiency in completing the experiment including clean-up. When you are done with a round-robin experiment, ALL of the equipment, samples, and documentation should be returned to the appropriate bin or storage location. Failure to do so will have a negative impact on your grade. The report will be due at the start of the next laboratory meeting after completion of the data collection unless other arrangements are made. Check with me if you need more class time for the analysis. Unexcused, late, submissions will be reduced by one point (out of 10) if not handed in at the start of lab on the due date, another point if not handed in by the end of that day, and one point for each day late thereafter. Late submissions will be excused only at the discretion of the instructor. This is the greatest pitfall of this course. Students that fall behind have great difficulty catching up. Turn in your lab reports on time!
Laboratory Notebook:	You must maintain a laboratory notebook. Nobel prizes and millions of dollars worth of patents have depended on laboratory notebooks, but more importantly your grade will depend, in part, on your lab notebook. The notebooks will be collected and graded at unannounced times during the semester. The following question should serve as a good guideline for developing a good laboratory notebook. ``If I pick up this notebook in a year or two, is there enough information in it for me to reproduce the experiment?'' You may want to use a loose-leaf binder to keep notes, plots, and calculations. Use notebook dividers to identify the different experiments. I have found it useful to keep an electronic text log and print it out at the end of a class or work session. This practice has the great feature that it is searchable. The following points are recommended. Be clear! You will lose points if it is not easy to understand what you are doing. Record the date, title, partner, and page number. Briefly write down the general purpose of the experiment, description of procedures, and descriptions of data. Record any observations even if you do not plan to use them. Pictures taken with a smartphone are fine, but label them. Make a rough sketch of the apparatus. Do not spend a lot of time on this and do it only when it would be of help. We all know what a hammer looks like, but we may not know exactly how you hooked up a complex detection circuit. Record all data in your lab notebook not on scrap pieces of paper! Do not erase data. You may indicate suspect data and your reasons, but do not erase it! You should indicate what is being measured and include units and uncertainty. Perform calculations, as you go along. It is much easier to repeat experiments on the spot than to try and come back and do it later. You should compare with accepted values as early as possible by calculating a percent error or percent difference. If you reach a conclusion, record it and substantiate it. If more analysis is needed, it is easier to do it on the spot. The lab notebook will not be graded on neatness, but it must be readable. Bring your notebook to every session.
Honor Code:	As you are aware, the Honor Code applies to all types of assignments, including tests, papers, your notebook, and the like. The Honor Code pledge should be written and signed on all assignments. What does this mean as far as laboratory work? Lab notebook: For your lab notebook, you should make certain to preserve it as a record of what happened rather than what you think should have happened. For instance, do not correct what you later think was a mistake (`Opps! It must have been a 5 here not a 3-let me just change that.'). If necessary, add dated comments (preferably in a different pen color) to that effect (such as `I think I left the oscilloscope on its default settings but I might have played with the trigger button.'). Short writeups and lab reports: You will be working with a lab partner often during this course, and I encourage you to collaborate with other students in the class as well. You should feel free to discuss the material with anyone in the course or seniors who've taken the course or other faculty members. However, the writeups and lab reports that you hand in should be your own work and reflect your own understanding of the material. If you make use of other written materials, be sure to cite them appropriately. For the final project papers, that means citations which are complete, similar to those found in journal articles. If in doubt, ask questions!
Safety Rules:	The following rules should be observed at all times in the laboratory. Failure to do so will result in removal from the laboratory. You should also check the issues described in each lab writeup. Shoes are required at all times. Food and drink must be kept clear of all equipment. Any tobacco use is forbidden in the lab at any time. Do not wear loose hair or clothing around moving equipment. Do not place equipment in the aisle or loiter in the aisle. Do not set equipment too close to the edge of the table. Do not activate any circuit or apparatus that you are unfamiliar with until the instructor or lab assistant inspects it. Only use lasers, projectile launchers, pendulums, etc., for the instructional purposes for which they were intended. Never look directly into the beam of a laser or into the barrel of a projectile launcher. All trash and waste materials should be disposed in the proper container. Do not pour chemicals into the laboratory sinks. Never touch a possibly live circuit. Do not short the electrical leads on any equipment. Any equipment not in use should be turned off. Do not take apart any apparatus or piece of equipment. All damaged equipment and chemical spills should be immediately reported to the laboratory instructor. Never remove any computer components (especially the mouse or keyboard) unless the computer is turned off. Do not move or jostle a computer while the CPU is turned on. Do not place books or papers on the tops of computer monitors. Do not shutdown the computers or monitors unless instructed to do so by the lab instructor. Leave your lab station neat, clean and organized at the end of each lab period. Ensure that all laboratory doors are locked and closed at the conclusion of each lab.
Printing:	We will be using all of the upper-level, physics, teaching-lab space. The printer in in the back of D-208 is `GSCD208PRTC1`. The one in the front of D208 is `GSCD208PRT1`. The printer in D-209 is `GSCD209PRT1`.

Course Outline:

The first three experiments will be done simultaneously by all students. Each one should take about two lab periods to complete and the lab report is due at the start of the next lab meeting. You will select then from the list of experiments below. There is only enough equipment for one set-up for each of the experiments so they will be conducted in a round robin fashion. Each experiment should take 1-3 lab periods to complete. Overviews of each experiment are on the course webpage.

Schedule Overview

Week Laboratory Week Laboratory

1-2 Spectroscopy 11 Start of projects.

2-3 Biot-Savart Law 12-13 Individual Projects

3-4 Radioactivity 14 Final project talks

4-10 Round Robin Laboratories

Round-Robin Experiments

Fundamental Forces 1: G Fundamental Forces 2: Coulomb's Law

Fundamental Particles 1: The Charge/Mass Ratio of the Electron Fundamental Particles 2: The Charge of the Electron

Fundamental Particles 3: The Cloud Chamber Fundamental Constants - The Photoelectric Effect

Fundamental Constants: Speed of Light (TOF) Fundamental Constants: Speed of Light (Spinning mirror)

Physical Optics Hall Effect

Measuring Atomic Separations The Adiabatic Gas Law

Dynamical Chaos in a Compound Pendulum Resonance and Radio: The LRC Circuit

Using Brownian Motion to Measure Atomic Properties Thermal Radiation

Modeling Air Friction Magnetic Force on a Current Loop

Interferometry Microwave Optics

Cosmic Rays and Muon Decay Detecting hidden nuclear materials

Mechanical Equivalent of Heat Electromagnetic Induction

Geometric Optics Damped Oscillator

Date		Topic	Date		Topic
Jan	17	Read Chaps 37.1-37.2, 38.7, and 41.1-41.2 (Knight), Chap 1 (Baird); Planck's hypothesis (hyperphysics); Hydrogen Atom (hyperphysics); Install Mathematica; do Introduction.nb notebook; get a notebook; read the syllabus.	Mar	12	Spring Break
				14	Spring Break
	22	Read Chap 2 in Baird; do problems 1,2,5,8,12 (hand in next lab meeting); complete analysis by next lab meeting.
	24	Read Chap 7 in Baird on scientific writing; Hydrogen lab report due next Wednesday, Jan 31.		19	Project Title due; Student Talks: Alexander, Will, Claude/Eric; Presentation guidelines are here and here ; Lab notebooks for the Radioactivity lab are due Wednesday, Mar 21. Include all relevant material as hardcopies in a readable form.
				21	Student Talks: Nate, Abdul, Joe/Chris; Presentation guidelines are here and here ; project introductions due Monday, Mar 26.
	29	Hydrogen lab report due Wed, Jan 31: Read Chaps 32.1-32.4, 32.7 (Kn); Read Chap 3 (Baird)
	31	Chap 3 (Baird), Problems 1-14.		26	Project Introductions due; Student Talks: Mason/Omar, Connor, and Colby; Reports: Alexander, Eric/Claude, Will
				28	Student Talks:Andriana, Robbie, Dan; Reports: Nate, Abdul, Joe/Chris.
Feb	5	Read Chap 6, Baird; plot B vs. r for your data; see plotting1.nb for guidance.
	7	Fit your data; see NonLinearFitting2.nb for guidance; Biot-Savart lab report due on Wednesday, Feb 14.	Apr	2	Student Talks: Alexander, Claude, and Eric; Student Reports: Colby, Mason/Omar, Conor.
				4	Project Theory section due; Student Talks: Chris, Abdul, and Nate; and Reports: Andriana, Dan, Robbie.
	12	Biot-Savart lab report due Wednesday, Feb 14
	14	Read Chap 42.1, 42.5-42.6 (Knight).		9	Student Talks: Will, Eric, Omar, and Andriana/Robbie; and Reports: Claude, Eric.
				11	Introductory Project Talks: Eric, Will, and Nate; Student Reports: Chris, Abdul, Nate.
	19	Read Chap 6.1-6.9 (Baird); Do problem 1; Read round-robin lab overviews.
	21	Radioactivity Lab due Monday, Feb 26; Select top two round-robin labs and email me your choices by 5 pm, tomorrow, Thurs, Feb 22.		16	Independent Projects - Student Talks: Claude, Colby, Mason; Reports: Chris, Conor, Andriana, Dan.
				18	Student Talks: Conor, Dan, Robbie; Reports: Colby, Eric, Mason
	26	Start Round Robin labs; read the documentation for your experiment.
	28	Start Round Robin labs		23	Student Talks: Abdul, Andriana, Chris; Reports: Omar, Claude, Will, Joe.
				25	Student Talks: Omar, Alexander, Joe
Mar	5	Analyze data and prepare reports. Presentation guidelines are here and here .
	7	Analyze data and prepare reports; project title due Monday, March 19. Presentation guidelines are here and here .	May	2	Final Papers due

Class:	MW 1:30 p.m. - 4:15 p.m., D-208 and others.
Professor:	G.P.Gilfoyle; Office: Gottwald Science Center, D-110 ; phone: 289-8255; electronic mail: ggilfoyl@richmond.edu; Office hours: TF 2:00-4:00 PM; MW 10:30-11:30 AM. Other times are by appointment.
Objective:	To gain an understanding of experimental methods and analysis.
Safety:	SAFETY FIRST! See the safety rules below. Always be very careful. If you are unsure ASK! If you are taking any medications or your motor skills are impaired for any other reason, do not perform the experiment and consult with me.
Textbooks:	Experimentation: An Introduction to Measurement Theory and Experiment Design (required) by D.C. Baird, Physics for Scientists and Engineers by Knight or Principles of Physics by Serway and Jewett (either one strongly recommended) or some equivalent text.
Software:	Mathematica, (required) (to download go to `http://is.richmond.edu/hardware-software/software/specialty/mathematica.html`).
Webpage:	`https://facultystaff.richmond.edu/~ggilfoyl/intermediate.html`.
Prerequisites:	Physics 132.
Course Work:	Each class meeting will consist of some combination of lecture, demonstration, laboratory work, or student presentation (see SCHEDULE).
Attendance:	Attendance at all classes is expected. An excused absence is one given by the dean, a doctor, or a department. An excusable absence is one that the instructor excuses for what he deems to be sufficient reason. A student is responsible for all work missed during an absence.
Grading:	Grades will be computed on the following basis:

	Written/Oral experiment reports and homework	55%
	Project Paper	25%
	Project Introduction	5%
	Project Theory Section	5%
	$\rm I^2$ (Initiative and Independence)	10%

Topics due	Monday, Mar 19
Introductions due	Monday, Mar 26
Theory section due	Monday, April 2
Final Papers Due	Wednesday, May 2, 5 pm