In mathematical invariant theory, the osculant or tacinvariant or tact invariant is an invariant of a hypersurface that vanishes if the hypersurface touches itself, or an invariant of several hypersurfaces that osculate, meaning that they have a common point where they meet to unusually high order. (Wikipedia).
How to use an oscilloscope / What is an oscilloscope / Oscilloscope tutorial
Visit my website for more Tips, Videos, DIY projects and more: http://www.mjlorton.com/ --------------------- Click "Show more" ------------------------------- Tutorial on the basics of what an oscilloscope is, how it works and how to use it. The oscilloscope is an electronic "time machine
From playlist How to use an Oscilloscope
Oscilloscope Tutorial Part 1/3 - What is an oscilloscope?
The first part in a series of tutorials to teach you the basics of oscilloscopes. In this part: What is an oscilloscope, why do you need one, which scopes are a good deal and where do I get one? Make sure you have annotations enabled because I had to update some of the information in the v
From playlist Oscilloscope tutorials
Tutorial: How to use an Oscilloscope #3 - How to capture a signal event / glitch / transient
------------------------------ Click "Show more" ------------------------------------------- In this tutorial I used the ISO-TECH IDS 6072A-U oscilloscope and a bench power supply to demonstrate how you can use the single shot feature with triggering to capture a signal event / glitch / tr
From playlist How to use an Oscilloscope
A Visual Intro to Curves and the Frenet Frame
Our submission for the Summer of Math Exposition 2 #some2. Topics: An introduction to the Mathematics of differential geometry of plane and space curves, leading up to the Frenet Frame, and Frenet-Serret Formulas and the Fundamental Theorem of Space Curves. Content: 0:00 Introduction, Mot
From playlist Summer of Math Exposition 2 videos
Multivariable Calculus | The Normal and Osculating Planes
We give the example of the normal and osculating planes of a given curve and calculate a few examples. http://www.michael-penn.net http://www.randolphcollege.edu/mathematics/
From playlist Multivariable Calculus
Bézier curves - how do they do? They're used for animation, text rendering, and all sorts of curved shapes! But how do they actually work? well, like, that's what the video is about, so, watch it to find out etc!! • Lots of love to 💛 Jazz "queenjazz" Mickle for making the music ❱ https:
From playlist Summer of Math Exposition Youtube Videos
Calculus 3 Lecture 12.3/12.5: TNB (Frenet-Serret) Frames, Curvature, Torsion, Encapsulation
Calculus 3 Lecture 12.3/12.5: TNB (Frenet-Serret) Frames, Curvature, and Torsion: Focus on how to compute the TNB Frames as simply as possible and use the results to find the Curvature, Osculating circle, osculating plane, normal plane, and radius of curvature. Formulas are also given i
From playlist Calculus 3 (Full Length Videos)
Tutorial: How to use an Oscilloscope #2 - How to acquire a signal.
A tutorial on using the controls on an oscilloscope to acquire a signal. Buy oscilloscopes here: http://www.tester.co.uk/catalogsearch/result/?q=Oscilloscope&cmid=QmhzQjcxYjVlc1E9&afid=bFcwbzliNzVDc289&ats=OXNWTlZRdmQreVk9 or here: http://astore.amazon.com/m0711-20?node=25&page=1 ---------
From playlist How to use an Oscilloscope
Why there are no perfect maps (and why we eat pizza the way we do)
Have you ever wondered why you've never seen a perfect map? Or why bending the side of your pizza keeps the toppings from falling off? Surprisingly, these two everyday phenomena can be explained by one abstract mathematical theorem: Gauss' amazing Theorema Egregium. This video is a submi
From playlist Summer of Math Exposition 2 videos
Differential Geometry | Math History | NJ Wildberger
Differential geometry arises from applying calculus and analytic geometry to curves and surfaces. This video begins with a discussion of planar curves and the work of C. Huygens on involutes and evolutes, and the related notions of curvature and osculating circle. We discuss involutes of t
From playlist MathHistory: A course in the History of Mathematics
Intuition for Curvature | Nathan Dalaklis
Today's video is a bit shorter than others. There is a lot going on, so I wanted to give a bit of intuition for a topic I find interesting; Curvature. In this video, we will go through a few formulas of curvature and compute curvature for a couple of examples, and I'll briefly mention diff
From playlist The First CHALKboard
Physics 69 Hamiltonian Mechanics (2 of 18) The Oscillator - Example 1
Visit http://ilectureonline.com for more math and science lectures! In this video I will find the equations of a simple oscillator of a mass attached to a spring using the Hamiltonian equations. Next video in this series can be seen at: https://youtu.be/ziYJ6jQG8q8
From playlist PHYSICS 69 ADVANCED MECHANICS: HAMILTONIAN MECHANICS
Mechanical Oscillation - Differential equation
In this video we will focus on the mathematical description of an oscillatory motion, in particular the second order differential equation of simple harmonic motion. #Differential_equation #Simple_harmonic_motion #Physics #Oscillator #Mechanical_energy #Lebanese_Curriculum
From playlist Summer of Math Exposition Youtube Videos
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (39 of 92) What is the Quantum Oscillator?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the quantum mechanics simple harmonic oscillator instead of the classical mechanics simple harmonic oscillator (see previous video). The difference between them is in quantum mechanics the ene
From playlist THE "WHAT IS" PLAYLIST
Marvels of Space-Time | Episode 705 | Closer To Truth
Einstein showed that space and time are essentially the same thing-a single entity, space-time. But space and time seem so radically different. How could space and time be literally the same thing? Featuring interviews with Max Tegmark, J. Gott, Juan Maldacena, Fotini Markopoulou, and Joh
From playlist Closer To Truth | Season 7
Let's Learn Physics: All About Oscillators
Harmonic oscillators are incredibly fundamental to almost all areas of physics. But how do we deal with systems that have more than one harmonic oscillators which all talk to each other? In this stream, we will discuss how to solve systems of coupled harmonic oscillators using the method o
From playlist Let's Learn (Classical) Physics: ZAP Physics Livestreams
Oscilloscope: the basics - an introduction on how to use it
An oscilloscope is a device to analyse electrical signals. Its sometime also called a CRO, or cathode ray oscilloscope. It's extremely useful to make precise measurements of events that can generate voltages. This video give you an introduction on how to use it. Check out my Lissajous vide
From playlist skills and foundations
Schwarzian derivatives and Epstein surfaces (Lecture 01) by Ken Bromberg
DISCUSSION MEETING SURFACE GROUP REPRESENTATIONS AND PROJECTIVE STRUCTURES ORGANIZERS: Krishnendu Gongopadhyay, Subhojoy Gupta, Francois Labourie, Mahan Mj and Pranab Sardar DATE: 10 December 2018 to 21 December 2018 VENUE: Ramanujan Lecture Hall, ICTS Bangalore The study of spaces o
From playlist Surface group representations and Projective Structures (2018)
From playlist UNSW Medicine