In astronomy, and in particular in astrodynamics, the osculating orbit of an object in space at a given moment in time is the gravitational Kepler orbit (i.e. an elliptic or other conic one) that it would have around its central body if perturbations were absent. That is, it is the orbit that coincides with the current orbital state vectors (position and velocity). (Wikipedia).
Teach Astronomy - Solar Oscillations
http://www.teachastronomy.com/ The Sun oscillates or vibrates at many frequencies like a bell. Solar oscillations can be used to study the interior of the Sun just as geologists use seismic waves to study the Earth's interior. In fact, apart from neutrinos this is the only way to reliabl
From playlist 13. Particle Physics and the Sun
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
A solar system, a simulation made with Excel
An Excel simulation of the solar system. You can see how things are recursively computed: the mutual gravity force from the locations, the accelerations, the velocities, and finally the updated locations. The solar eclipse is also shown. This is clip is intended to illustrate Chapter 24 Ap
From playlist Physics simulations
Accelerated motion and oscillation!
In this video i demonstrate accelerated motion with interface. I show the graphs of simple accelerating motion and simple harmonic motion with force and motion sensor!
From playlist MECHANICS
Teach Astronomy - Pulsation Period
http://www.teachastronomy.com/ Just like a bell or any mechanical object, stars have a particular frequency or timescale when they tend to vibrate in response to an external disturbance. If the time that it takes for energy to dam up in the atmosphere of a giant star corresponds to the na
From playlist 15. Stars 2
Βy which factors the oscillation period depends!
The oscillation period in simple harmonic motion!
From playlist 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
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
A Geometric and topological view of classical optics by Rajaram Nityananda
DISCUSSION MEETING : GEOMETRIC PHASES IN OPTICS AND TOPOLOGICAL MATTER ORGANIZERS : Subhro Bhattacharjee, Joseph Samuel and Supurna Sinha DATE : 21 January 2020 to 24 January 2020 VENUE : Madhava Lecture Hall, ICTS, Bangalore This is a joint ICTS-RRI Discussion Meeting on the geometric
From playlist Geometric Phases in Optics and Topological Matter 2020
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
B04 Example problem of simple harmonic oscillation
Solving an example problem of simple harmonic oscillation, which requires calculating the solution to a second order ordinary differential equation.
From playlist Physics ONE
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
Part II: Vector Calculus, Lec 2 | MIT Calculus Revisited: Multivariable Calculus
Part II: Vector Calculus, Lecture 2: Tangential and Normal Vectors Instructor: Herbert Gross View the complete course: http://ocw.mit.edu/RES18-007F11 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT Calculus Revisited: Multivariable Calculus
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)
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
Astronomy - Ch. 2: Understanding the Night Sky (2 of 23) What is the Ecliptic Plane?
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain what is the ecliptic plane.
From playlist ASTRONOMY 2 THE NIGHT SKY
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
Oscilloscope Earthing / Isolation Challenges - Part 2
View all my tutorials and videos: https://www.youtube.com/user/mjlorton/videos?live_view=500&flow=list&sort=dd&view=1 ------------------------------ Click "Show more" ------------------------------------------- In this video I demonstrate the use of the differential maths function on an os
From playlist How to use an Oscilloscope