Physics Ripple Tank Experiment Reflection Refraction Diffraction Interference
Views: 1570 Km Tang
110 - Wave Diffraction In this video Paul Andersen explains how waves will diffract (or bend) around an obstacle or while traveling through and opening. Diffraction will be maximized when the size of the opening or obstacle matches the wavelength. Do you speak another language? Help me translate my videos: http://www.bozemanscience.com/translations/ Music Attribution Title: String Theory Artist: Herman Jolly http://sunsetvalley.bandcamp.com/track/string-theory All of the images are licensed under creative commons and public domain licensing: Alexander, ESO/M. English: Astronomers Do Not Always Swim at the Swimming Pool at the Paranal Observatory Residencia, but When They Do, They like to Show How Physical Principles Work. In This Picture the French ESO Astronomer Jean-Baptiste Le Bouquin Is Demonstrating How Waves — Not Light Waves, but Water Waves — Can Combine, or Interfere, to Create Larger Waves., January 27, 2014. http://www.eso.org/public/images/potw1404a/. http://commons.wikimedia.org/wiki/File:Swimming_Pool_Interferometry.jpg. Cryonic07. English: Illustration of a Simple Ripple Tank. See Also Image:Simple Ripple Tank Paddle.svg, August 30, 2007. self-made This vector image was created with Inkscape, and then manually edited. Partly based on en:Image:Ripple tank.png and en:Image:Ripple tank motor.png. http://commons.wikimedia.org/wiki/File:Simple_ripple_tank.svg. “Diffraction Grating.” Wikipedia, the Free Encyclopedia, April 10, 2015. http://en.wikipedia.org/w/index.php?title=Diffraction_grating&oldid=655807039. it.wikipedia, Original uploader was A3XX at. Italiano: Fotografo:, December 4, 2006. Transferred from it.wikipedia. http://commons.wikimedia.org/wiki/File:Single-slit-diffraction-ripple-tank.jpg. Pajs. Vlneni Pri Pruchodu Bodovou Sterbinou (k Demonstraci Difrakce), April 28, 2015. Own work. http://commons.wikimedia.org/wiki/File:Difrakce_sterbina_bodova.png. ———. Vlneni Pri Pruchodu Kolem Velke Prekazky (k Denonstraci Difrakce), April 28, 2015. Own work. http://commons.wikimedia.org/wiki/File:Difrakce_prekazka_velka.png. ———. Vlneni Pri Pruchodu Velkou Sterbinou (k Demonstraci Difrakce), April 28, 2015. Own work. http://commons.wikimedia.org/wiki/File:Difrakce_sterbina_velka.png. “Ripple Tank.” Wikipedia, the Free Encyclopedia, March 3, 2015. http://en.wikipedia.org/w/index.php?title=Ripple_tank&oldid=649682468. “Wave Interference.” PhET. Accessed April 16, 2015. https://phet.colorado.edu/en/simulation/wave-interference.
Views: 130132 Bozeman Science
Ripple Tank Experiment 3: Reflection of Straight Wave by Str
Views: 16669 makseyuen2
See the new, higher quality upload. https://youtu.be/4o9TMxXTjOc A 16mm film now incorporated into my article http://www.gcmstudio.com/acoustics/acoustics.html because it's not only relevant to water, but sound and light waves as well. It is from my own collection that clearly demonstrates how 2 sources of vibration interact. Anybody who uses more that 1 speaker to listen to audio should see this, especially engineers. It shows an ideal world, free of reflections (echoes or reverberation) but is educational never the less. Yet, this form of interference is largely ignored, even in texts about acoustics. It has been edited for time but no concepts covered have been removed.
Views: 153515 wado1942
Andrew Norton uses a ripple tank to demonstrate some basic features of waves. (Part 1 of 5) Playlist link - https://www.youtube.com/playlist?list=PLFE829A78F461BD20 Transcript link - http://media-podcast.open.ac.uk/feeds/fsc-exploring-wave-motion/transcript/fsc03.01.pdf Open Learn related content: Physics: https://www.open.edu/openlearn/science-maths-technology/science/physics-and-astronomy/physics Light: Wave-particle duality: https://www.open.edu/openlearn/science-maths-technology/science/physics-and-astronomy/physics/light-wave-particle-duality What's so exciting about gravitational waves being discovered? : https://www.open.edu/openlearn/science-maths-technology/science/physics-and-astronomy/physics/whats-so-exciting-about-gravitational-waves-being-discovered Study Q64 BSc (Hons) Natural Sciences (Physics) http://www.open.ac.uk/courses/qualifications/q64-phy The Open University is the world’s leading provider of flexible, high-quality online degrees and distance learning, serving students across the globe with highly respected degree qualifications, and the triple-accredited MBA. The OU teaches through its own unique method of distance learning, called ‘supported open learning’ and you do not need any formal qualifications to study with us, just commitment and a desire to find out what you are capable of. Free learning from The Open University http://www.open.edu/openlearn/ For more like this subscribe to the Open University channel https://www.youtube.com/channel/UCXsH4hSV_kEdAOsupMMm4Qw Like us on Facebook: https://www.facebook.com/ouopenlearn/ Follow us on Twitter: https://twitter.com/OUFreeLearning #OpenUniversity #Physics
Views: 83902 OpenLearn from The Open University
Find my revision workbooks here: https://www.freesciencelessons.co.uk/workbooks/shop/ In this video, we look at how to use a ripple tank to determine the wavelength, frequency and speed of water waves. This is a required practical so it is essential that you learn the details. Deliberate Thought by Kevin MacLeod is licensed under a Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/) Source: http://incompetech.com/music/royalty-free/?keywords=deliberate+thought Artist: http://incompetech.com/
Views: 158368 Freesciencelessons
Physics Ripple Tank Experiment Reflection Refraction Diffraction Interference
Views: 52 Km Tang
This tutorial is about how waves can speed up or slow down when then enter a material with a different optical density, or when water waves enter regions of different depths. This change of velocity can cause the waves to change direction - this is called REFRACTION. Subscribe for more physics tutorials like this: http://bit.ly/Subscribe-Physics-Ninja Water waves will refract when then move from shallow to deep water causing them to speed up. As a result, their wavelength will increase and the refracted ray will 'SPEED AWAY' from the normal line. Remember that the wavefronts are always at 90 degrees to the ray. Use 'RNAR' to work through the steps: 1. Ray (incident ray) 2. Normal (line perpendicular to surface where the ray enters) 3. Angles (label the angle of incident and angle of refraction) 4. Use the refraction rule "SPEED AWAY" to determine which direction the refracted ray will bend. Quick question: During refraction, the wavelength and the speed of the wave changes. What does NOT change about the wave? (Answer... the frequency of the wave does not change) So why do waves get faster in deeper water? The answer is a bit complex, but here is an explanation posted at the Illinois Department of Physics: 1. For a shallow fluid, the motion of the fluid is mostly side-to-side. 2. In order to accumulate more fluid in one place (to make the crest of the wave), each little bit of fluid must travel a little farther than it would have to in deeper water. 3. When a wave passes, the bits of fluid (if you could watch one at a time) travel in ellipses. For shallow water, the ellipses are stretched out horizontally, and in very deep water, they are very nearly circular. 4. So for a wave of the same height (top to bottom of the ellipse), the bits of water must travel farther in the shallow tray than the deep tray. 5. Because the waves of the same height in shallow and deep water exert the same pressure differences due to gravity to get the water moving (although the motion is different due to the fact that the bottom is there), similar forces push and pull on the water. 6. To get the water moving farther and faster with the same force takes a longer time for each push, and hence a slower speed for the wave which travels in the shallow water. " (From https://van.physics.illinois.edu/qa/listing.php?id=2223) For more physics flashcards and tutorials visit https://gcsephysicsninja.com/product/waves-flashcards/
Views: 40992 GCSE Physics Ninja
Water Wave Animation via Wavefront Parameter Interpolation Authors: Stefan Jeschke and Chris Wojtan IST Austria We present an efficient wavefront tracking algorithm for animating bodies of water that interact with their environment. Our contributions include: a novel wavefront tracking technique that enables dispersion, refraction, reflection, and diffraction in the same simulation; a unique multi-valued function interpolation method that enables our simulations to elegantly sidestep the Nyquist limit; a dispersion approximation for efficiently amplifying the number of simulated waves by several orders of magnitude; and additional extensions that allow for time-dependent effects and interactive artistic editing of the resulting animation. Our contributions combine to give us multitudes more wave details than similar algorithms, while maintaining high frame rates and allowing close camera zooms.
Views: 3694 Chris Wojtan
We present new experiments on the physics of water waves performed through a simply modified ripple tank. Our device allows visualizations of profiles of sinusoidal waves, wave packets, stationary waves, the study of beats and new interesting images of interference and diffraction.
Views: 480 Fabrizio Logiurato
Geophysics is applied to societal needs, such as mineral resources, mitigation of natural hazards and environmental protection. 🔴 Subscribe: https://bit.ly/2xcAZYW About World Earthquakes: World Earthquakes is a non-profit, non-governmental organisation which offers free public earthquake information services. It was founded on 11th of March, 2010, exactly one year before the Mw 9.0 Tohoku Earthquake. Get More World Earthquakes Live: Official Site: https://bit.ly/2QuWsFA Facebook: https://bit.ly/2x4siR8 YouTube: https://bit.ly/2QoPqC0 This video is for education purpose only. ~ All Lectures "Geophysics" ~ Lecture 01: Introduction to Geophysics - https://youtu.be/9Gvv8aXh0ys Lecture 02: Wave Theory, refraction and reflection - https://youtu.be/b64fiOFqiWM Lecture 03: Petroleum, generation and migration - https://youtu.be/IDYjhJHNXtg Lecture 04: Reservoirs, trapping mechanisms, porosity - https://youtu.be/VYtVbmjKLrs Lecture 05: Electric (Wire line), SP and resistivity logs - https://youtu.be/P4jdGCU0ZlI Lecture 06: Gamma ray logs - https://youtu.be/6bjlj2kV5M8 Lecture 07: Well logging services - https://youtu.be/sYKAK8B-4kE Lecture 08: The porosity logs - https://youtu.be/uVmqtRnbUrk Lecture 09: Isopach maps. Top of formation maps - https://youtu.be/1yJqIa0tdh8 Lecture 10: Fence Post Diagrams - https://youtu.be/-4Cytf_wTHc Lecture 11: Introduction to Seismology - https://youtu.be/jXWZiDPmTm8 Lecture 12: Seismic Stratigraphy - https://youtu.be/MzGj3AatwWs Lecture 13: Sequence Stratigraphy Part 1 - https://youtu.be/hyHUfQcOTCI Lecture 14: Sequence Stratigraphy Part 2 - https://youtu.be/BfNFTiOlWuo #geophysics #wavetheory #refraction #reflection
Views: 32715 worldethq
In this video, we will describe properties of waves such as reflection, refraction, and diffraction with the help of the ripple tank. Access eLearn Digital content/ videos on mobile Download eLearn App from Google play store. Android App: http://bit.ly/2RBzptk For More Information: Website: https://elearn.gov.pk/ Web App: https://elearn.gov.pk/onlineApp/indexx.php E-MAIL: [email protected] eLearn is the official repository of digitized textbooks of Punjab. Each book has been augmented with Video Lectures, Illustrations, Animations, Simulations, and Interactive Assessments. Through this website, you can access 30 Science and Maths textbooks for Grade 4-12 which have been augmented with 13,047 Video Lectures, 592 Simulations, 2100 Audio minutes and 1,830Animations. eLearn is developed by Punjab Information Technology Board in collaboration with Punjab Curriculum & Textbook Board and the School Education Department.
Views: 173 eLearn
Waves and Reflections in a Model Concert Hall in a Ripple Tank Washington and Lee University PHYS 102- Physics and Perceptions of Music
Views: 501 sWiMduDe2113
This apparatus uses modern technology to completely update the Ripple Tank concept to provide a compact and elegant method of showing the wave phenomena of diffraction, refraction, reflection, and interference with none of the usual problems. The tank is 4" (100mm) square and is supported on a base which provides the wave generator and lighting. Images of the water-waves produced are projected upwards on to a frosted screen which is viewed from above. The white light source can be switched between constant illumination and strobe to give either moving or frozen images on the screen. In the strobe mode, the light source is synchronized to the wave generator so that perfectly static patterns are displayed. The wave frequency can be varied giving wavelengths in the tank ranging from several cm to a few mm. Comes with: a full set of 3 acrylic shapes for refraction 3 aluminum plates for reflection and 3 dippers for plane and circular wave generation. Power adapter included. Ripple Tank: goo.gl/1JJupw -- 2018 Product Catalog - goo.gl/Wk2ysK Visit us - http://american-scientific.com/ Facebook - http://www.facebook.com/AmericanScientific/ Twitter - http://twitter.com/AmSciTeam Instagram - http://www.instagram.com/amsciteam/ Music by: Nicolai Heidlas
Views: 695 American Scientific, LLC
Ripples is an online educational application to simulate waves propagation in an tank. You can learn and enjoy watching those effects that cause different scenes that can be made by drawing walls, or by modifying waves, adding emitters, or by changing they frequencies to see effects like Doppler, diffraction, refraction, interferences, and more. Direct link: http://muchos-juegos.appspot.com/ripples/ Chrome Web Strore Link (for install in Chrome): https://chrome.google.com/webstore/detail/gfnjgbmalioedafbpahlobnkgbjkllod
Views: 44819 cfains
Investigating interference using a ripple tank. Visit our channel: https://www.youtube.com/user/wyedeanscience Subscribe: http://www.youtube.com/subscription_center?add_user=wyedeanscience
Views: 511 Wyedean Science