SELECTED APPLETS - PHYS 104, Spring 2003
Last update: May 12, 2003
Chap. 1:
Motion with Constant Acceleration
Catch Up (Constant Velocity and Constant Acceleration)
Newton's Second Law Experiment
Resultant of Forces (Addition of Vectors)
Projectile Simulation/Experiment
Inclined Plane (using trigonometry)
Force and Work (Set mu = 0.)
Simulation of Monkey and Hunter Demonstration
Chap. 2:
Locate Center of Mass of up to 20 Objects
Inclined Planes and Frictional Forces
Friction: Single Block Pulled via Pulley by Falling Weight
Frictional Forces: Stacked Blocks Pulled via Pulley by Falling Weight
Popular Presentation of Recent Research Results about Friction: work at Hopkins and U. Texas
From an online lecture (nice figures, overall too advanced for PHYS104)
Conservation of linear momentum: 2 balls from opposite directions
Conservation of linear momentum: 2 masses, elastic, arbitrary initial velocities
Collision of 2 wagons (by Fendt; lots of settings)
Generating angular momentum and figure skating (preliminary to next entry)
Conservation of angular momentum and figure skating (more advanced than Phys 104)
Bumper cars (fun, but the collisions do not all seem to conserve angular momentum!)
Bumping cars, analyzed in terms of what happens in various collisions: TRY IT!!
Chap. 3:
Spring scale applet (alas with commentary in Korean!)
Role of inelasticity in granular medium (interesting application not in text)
Model of
a carousel: centripetal force (Fendt)
"Funderstanding" roller coasters
Design your own roller coaster
Coriolus and centrifugal forces
Chap. 4:
Buoyant force in liquids (Fendt)
Applet showing physical basis of ideal gas law (very enlightening)
Applet: Ideal Gas (note n [moles] x R = N [particles] x k)
Interactive periodic table
Venturi
tube simulation for Bernoulli equation (fancy)
Chap. 5:
Fancy flow applet using
Reynolds number
Teaching Fluid
Dynamics over the Internet
Water hammer applet
(very technical)
Baseball hits,
including effect of Magnus force
NASA Beginner's Guide to Aeronautics
Airplane lift is as subtle and complicated as the text describes: here are problems with 3 simple pictures often presented in popular discussions:
More useful discussions:
Computes final velocity based on initial and payload masses and on propellant exhaust speed and includes link to derivation of the rocket equation (which is well beyond the level of PHYS 104)
Multistage rockets as spring-loaded
Details on mass fraction for rockets
How rocket engines work
(from How Stuff Works)
Chap. 6:
Succinct outline of nature of chemical bonds
Chemical bonding information--nice overview
Discussion of heat transfer (somewhat more technical than class)
Primer tutorial on electromagnetic waves (nicely captures the essence; if you are unfamiliar with waves, study this site!)
Tutorial on waves (if you want more information; following links takes you astray)
Black-body radiation applet (shows power as well as intensity vs. wavelength)
Black-body radiation applet (very nice, flexible, convenient)
Black-body radiation applet (plots log (intensity) vs. wavelength; input T or wavelength of max intensity)
Succinct discussion of black-body radiation (with some formalism and quantum concepts you can skip over)
Radiation discussion, including links to astronomy data, graph, link
Black-body radiation applet (cludgy but potentially useful for extracting numbers)
Excellent general description of light bulbs without equations or charts
GE glossary of terms (Note esp. lumens/watt)
Watts and lumens: definitions
and clarification of essentials
Light voltage regulator (scroll down for great table showing sensitivity of lifetime and lumens to voltage)
Popular description of lightbulbs of various types
Simulation illustrating the 2nd law of thermodynamics, with lots of accompanying discussion; also shows energy conversion to thermal energy for a bouncing ball
Extensive but non-technical discussion of entropy
Extensive discussion of entropy clarifying misconceptions
"All about entropy" with lots of links, likely more than you want to know!
Second law of thermo and Heat engine [ideal] and real, nice web introduction
Entropy and biology descriptive
Entropy illustrated with poker and with a box of air
How refrigerators work (Follow first few links; from HowStuffWorks)
How an airconditioner works (from HowStuffWorks)
Carnot
cycle and the efficiency of engines (& 2-stroke)
Gasoline engine: Otto cycle simulation (4-stroke: induction, compression, power, exhaust)
Chap. 8:
Electrostatics (P. Falstad, 2D)
Electric field lines from 2 charges
Chap. 9:
Induced current by distorting coil
How Power Distribution
Grids Work (from How Stuff Works)
How Tape Recorders
Work (from How Stuff Works)
Chap. 11:
RLC Resonance Circuit, I vs. f
Simple AC circuits, R, L, C (Fendt)
Electromagnetic spectrum, elementary treatment
Electromagnetic spectrum, inc. jpeg, from NCSA, U of Illinois
Electromagnetic spectrum, succinct table
"The Nature of Light", succinct summary
Assignment in USA of all frequencies of the electromagnetic spectrum (pdf)
Applet showing amplitude modulation (Note that "mod index" is the amplitude of the modulator. Ignore the lower set of green spikes.)
Applet showing frequency modulation (Similar to the preceding. To see anything, "mod index" must be at least half way up. Ignore the lower set of black spikes.)
How Radio Works (from How Stuff Works)
How Television Works (from How Stuff Works)
Charged
Particles Moving in a Magnetic Field
Simple applet on additive color mixing with R, G, B slide bars (alternative site) (similar idea)
Succinct discussion of additive (RGB) color addition
Color
mixing (additive) [Hwang]
"Dilletante's dictionary" of audio terminology
Maarten Rutgers' web site (then click on Fun, then Microwaves)
Bloomfield
microwave-oven FAQs (and not-so-frequently asked questions)
How Microwave Ovens Work (from How Stuff Works)
Chladni Figures and Vibrating Plates
Microwave-oven experiments: an extensive, wonderful set
Extensive set of Q&As by Bloomfield on microwave ovens
Radiation From A Quarter Wave Antenna: Figs. 68 & 69 at end
Antennas: descriptions of various kinds, inc. quarter-wave
Chap. 12:
Refraction (moving wavefronts)
Reflection/Refraction (beams)
Refraction/reflection (single wavefront to "antennas" on interface--Huygens)
Light
Dispersion through a Glass Prism
Nice, clear discussion of rainbows
Physics of rainbows (more than you probably want!)
Several pages on rainbows and why they arise
Extensive information about rainbows, not just physics
Constructive and destructive interference (static)
Adding pair of sinusoidal waves (static)--shows nodes and antinodes well
Superposition of wave forms traveling in opposite directions
Superposition of sinusoidal wave pulses traveling in opposite directions
Superposition of user-modified sinusoidal wave pulses traveling in opposite directions
Superposition of extended waves traveling in opposite directions (from NTNU)
Polarizing filter (nice applet)
FAQs re Gas Discharge Lamps, Ballasts, and Fixtures (more technical than PHYS104!)
Absorption and emission of radiation by an atom
Beginning of fluorescent bulbs sites (How Stuff Works)
Emission of photon from atom due to collision
Essence of fluorescent lamps -- READ THIS!!
Difference between current flow in conductors and plasmas
Starting the lamp--traditional method
Succinct popular-level blurb on compact fluorescent bulbs (by a physicist at Iowa State)
Excellent discussion of incandescent and fluorescent bulbs (inc. failure of fluorescents)
The Laser (excellent and widely linked)
WWSR Laser tutorial (first of 5 excellent linked pages)
Operation of a Laser System - Interactive Applets
"Laser Adventure " by Rami Ariel, Kansas State U, much at PHYS104 level, sometimes too detailed and mathy
Properties of Laser Radiation-concise summary
Figure re electron population in thermal equilibrium
Normal/Inversion Population Applet (more cute than useful?)
Article on lunar laser ranging (research rather popular, so just read the abstract, and perhaps look at the figures)
Chap. 13:
Image Formation by a Converging Lens (Kiselev)
Thin lens demo (Fu-Kwun Hwang), several sites: utb, nau, colorado
Pinhole photography homepage with lots of
links (and ads)
Compendium of lens calculator sites
Glossary of Photographic Terms
Photography basics (9 pages)
Nice
discussion of depth of field and other basics
Depth-of-Field calculation applet
Depth of Field Calculators for Photographers and lots of info
Digital Photography vs Traditional
Photography: exposure control (nice summary)
f/ calc (slow loading)
How Cameras Work (intro page of several on HowStuffWorks)
How Photograph Film Work (intro page of several on HowStuffWorks)
Nice clear tutorial on binary notation <-------
Binary numbers and analog/digital conversion <-------
How CDs Work (intro page of several on HowStuffWorks)
How CD Burners Work (intro page of several on HowStuffWorks)
How DVDs and DVD Players Work (intro page of several on HowStuffWorks)
Chap. 14:
Excellent applet on decay and half-life
Another nice simulation of half-life and decay
Nice applet on nuclear chain reaction
Applet on Nuclear Isotope Half-lifes
Brief tutorial on nuclear chemistry
Radiation: several nice short summaries
How CAT Scans Work
(How Stuff Works)
How MRI Works (How Stuff Works)
Physics Saves Lives (AIP "Propaganda")
Compendium
of sites on medical physics
Miscellaneous compendiums:
Bloomfield compendium of questions and answers on How Things Work
Sports physics--vast collection of fascinating links
General physics aimed
at biology
R. S. Reddy's General
Physics Java Applets
Mississippi State Simulation Library
Conservation of linear momentum: cannon ball into box car (inelastic)
Conservation of linear momentum: 2 masses, arbitrary restitution, arbitrary initial velocities
Good Physics Applets, Evaluated by Donald F. Collins, Warren Wilson College
Nano, Quantum & Statistical Mechanics & Thermodynamics Educational Sites
San Jose State physics web resources
Tutorials on computer components
Comic relief: