Transformation (function) | Differential geometry | Metric geometry
In geometry, a motion is an isometry of a metric space. For instance, a plane equipped with the Euclidean distance metric is a metric space in which a mapping associating congruent figures is a motion. More generally, the term motion is a synonym for surjective isometry in metric geometry, including elliptic geometry and hyperbolic geometry. In the latter case, hyperbolic motions provide an approach to the subject for beginners. Motions can be divided into direct and indirect motions.Direct, proper or rigid motions are motions like translations and rotations that preserve the orientation of a chiral shape.Indirect, or improper motions are motions like reflections, glide reflections and Improper rotations that invert the orientation of a chiral shape.Some geometers define motion in such a way that only direct motions are motions. (Wikipedia).
Dynamics : An overview of the cause of mechanics
Dynamics is a subset of mechanics, which is the study of motion. Whereas kinetics studies that motion itself, dynamics is concerned about the CAUSES of motion. In particular, it involves the concepts of force, momentum and energy. This video gives an overview of what dynamics is, and is u
From playlist Dynamics
In this second part on Motion, we take a look at calculating the velocity and position vectors when given the acceleration vector and initial values for velocity and position. It involves as you might imagine some integration. Just remember that when calculating the indefinite integral o
From playlist Life Science Math: Vectors
Calculus 3: Vector Calculus: Motion in a Plane (1 of 15) General Concept
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the general concept of motion in a plane (2-D) in vector calculus in relationship to position vector (r(t)), velocity vector (v(t)), and, later, acceleration vector (a(t)). Next video in the
From playlist CALCULUS 3 CH 3.1 VECTOR CALCULUS: MOTION IN A PLANE
Simple Harmonic Motion Example Question (1 of 3: Determining period of motion)
More resources available at www.misterwootube.com
From playlist Applications of Calculus to Mechanics
Describes how to calculate the time for an object to fall if given the height and the height that an object fell if given the time to fall. You can see a listing of all my videos at my website, http://www.stepbystepscience.com
From playlist Mechanics
Construction of Particular Planar Curves using GeoGebra - Florida GeoGebra Conference 2022: Part 13
Here, Petra Surynková leading us in our final Florida GeoGebra Conference session: "Constructions of Particular Planar Curves Using GeoGebra”. Link to GeoGebra book referenced here: https://www.geogebra.org/m/mh9srps6
From playlist 2022 Florida GeoGebra Conference
Geometry Constructions by Petra Surynkova
Learn Geometry Constructions with GeoGebra! In this video series, Petra Surynkova will guide you through a variety of constructions, including bisectors, perpendiculars, and more. Follow along with her clear explanations and visual aids to master the art of geometric construction in GeoGeb
From playlist FLGGB 2023
Non-Integrability in String Backgrounds by Pallab Basu
11 January 2017 to 13 January 2017 VENUE: Ramanujan Lecture Hall, ICTS, Bengaluru String theory has come a long way, from its origin in 1970's as a possible model of strong interactions, to the present day where it sheds light not only on the original problem of strong interactions, but
From playlist String Theory: Past and Present
Calculus 3: Vector Calculus: Motion in Plane (10 of 15) Postion, Velocity, Acceleration (Part 3)
Visit http://ilectureonline.com for more math and science lectures! In this video I will further explain the position, velocity, and acceleration of a particle moving along a curve not just in terms of the x=x(t) and y=y(t) components but also in terms of parallel and perpendicular compon
From playlist CALCULUS 3 CH 3.1 VECTOR CALCULUS: MOTION IN A PLANE
The Three-Body Problem: A Chaotic Tale from Newton to Symplectic Geometry and Spa...- Agustin Moreno
Friends Talk Topic: The Three-Body Problem: A Chaotic Tale from Newton to Symplectic Geometry and Space Exploration Speaker: Agustin Moreno Affiliation: Member, School of Mathematics Date: March 10, 2023 One of the most important events in science dates back to 1687, when Newton publishe
From playlist Friends of the Institute
Edward Witten: On the Shoulders of Giants
Acknowledging the scientists who blazed intellectual trails before him, Isaac Newton wrote, “If I have seen a little further it was by standing on the shoulders of giants.” In this special annual series, we invite our audience to stand on the shoulders of a modern-day giant. In 2015, we
From playlist Watch Our Most Popular Programs
Dr Leo Dorst' Keynote talk at CGI2020
A high-speed introduction to the Algebra of planes.
From playlist Bivector.net
Peter Sarnak: Hyperbolic equations and spectral geometry
Programme for the Abel Lectures 2005: 1. "Abstract Phragmen-Lindelöf theorem & Saint Venant’s principle" by Abel Laureate 2005 Peter D. Lax, New York University 2. "Systems of conservation laws" by Professor Sebastian Noelle, CMA Oslo/ RWTH Aachen 3. "Hyperbolic equations and spectra
From playlist Abel Lectures
Lecture 12: Smooth Surfaces I (Discrete Differential Geometry)
Full playlist: https://www.youtube.com/playlist?list=PL9_jI1bdZmz0hIrNCMQW1YmZysAiIYSSS For more information see http://geometry.cs.cmu.edu/ddg
From playlist Discrete Differential Geometry - CMU 15-458/858
Lecture 9 | String Theory and M-Theory
(November 23, 2010) Leonard Susskind gives a lecture on the constraints of string theory and gives a few examples that show how these work. String theory (with its close relative, M-theory) is the basis for the most ambitious theories of the physical world. It has profoundly influenced
From playlist Lecture Collection | String Theory and M-Theory
Circular Motion - A Level Physics
Consideration of Circular Motion, orbital speed, angular speed, centripetal acceleration and force - with some worked example.
From playlist Classical Mechanics
Harmonic Measures and Poisson Boundaries for Random Walks on Groups (Lecture 1) by Giulio Tiozzo
PROGRAM: PROBABILISTIC METHODS IN NEGATIVE CURVATURE ORGANIZERS: Riddhipratim Basu (ICTS - TIFR, India), Anish Ghosh (TIFR, Mumbai, India), Subhajit Goswami (TIFR, Mumbai, India) and Mahan M J (TIFR, Mumbai, India) DATE & TIME: 27 February 2023 to 10 March 2023 VENUE: Madhava Lecture Hall
From playlist PROBABILISTIC METHODS IN NEGATIVE CURVATURE - 2023