Origami par Marcel Morales - Construction de polyedres
Construction de polyedres Licence: CC BY NC-ND 4.0
From playlist Autres
DNA origami is the art of folding DNA. The idea is to create tiny nanoscale machines that could work inside the human body. In the ten years since the technique was first reported the field has grown massively. Nature Video finds out how DNA origami works and what has been achieved so far.
From playlist Technology
Origami attracts the minds of people all over the world. Some are interested in its geometric aspects, and others in artistic or recreational elements, so-called traditional origami. Although both origami categories rely on a single notion of paper folding, their methodologies differ due t
From playlist Wolfram Technology Conference 2022
The satisfying math of folding origami - Evan Zodl
Dig into the mathematical rules and patterns of folding origami, the ancient Japanese art of paper folding. -- Origami, which literally translates to “folding paper,” is a Japanese practice dating back to at least the 17th century. In origami, a single, traditionally square sheet of pap
From playlist New TED-Ed Originals
Origami Fireworks by Yami Yamauchi: Improved Assembly
** The difference between this video and the one posted previously is how the modules are assembled. I think the new assembly is easier and more robust than the previous one. ** This video demonstrates how to fold the origami model "Fireworks" that Yami Yamauchi designed. Yami kindly
From playlist Scratch
Unfolding the Future of Origami | Podcast | Overheard at National Geographic
Origami isn’t just child’s play– the math and science behind paper folding can revolutionize how we make all kinds of technologies. In recent decades, scientists, engineers and designers have pushed origami beyond its traditional roots and applied its patterns to fascinating technologies l
From playlist Podcast | Overheard at National Geographic
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Erik Demaine This class begins with a folding exercise of numerical digits. Questions discussed cover strip folding in the context of efficienc
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Erik Demaine This lecture introduces the topics covered in the course and its motivation. Examples of applications are provided, types and char
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
Class 5: Tessellations & Modulars
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Erik Demaine This class introduces more examples of origami models that use a variety of techniques and media. At the end of the session, the c
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
Lecture 6: Architectural Origami
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Tomohiro Tachi This lecture presents Origamizer, freeform origami, and rigid origami applied to architectural and three-dimensional design cont
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
Watch this origami fold itself
A combination of color printing and light makes a polymer assume complex 3D shapes. Learn more: http://scim.ag/2mBmnzp Read the research (free): http://scim.ag/2lDK2KM
From playlist Materials and technology
Karl Schaffer - Edgy Puzzles - G4G13 Apr 2018
Edge decompositions of polyhedra et al.
From playlist G4G13 Videos
What are the names of different types of polygons based on the number of sides
👉 Learn about polygons and how to classify them. A polygon is a plane shape bounded by a finite chain of straight lines. A polygon can be concave or convex and it can also be regular or irregular. A concave polygon is a polygon in which at least one of its interior angles is greater than 1
From playlist Classify Polygons
Lecture 5: Artistic Origami Design
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Jason Ku This lecture presents both the traditional and non-traditional style of origami with many visual examples. The lecture then moves onto
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
!!Con 2019 - We Love Polyhedra! (And So Should You!) by Nat Alison
!!Con 2019 - We Love Polyhedra! (And So Should You!) by Nat Alison For millennia, mathematicians have marveled at the beauty of polyhedra, the most fundamental of 3D shapes. For years I have admired and researched these figures, and now it is time to me to present my findings. Through the
From playlist !!Con 2019
Class 4: Efficient Origami Design
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Erik Demaine This class begins with folded examples produced by TreeMaker and Origamizer. Explanation of the triangulation algorithm, checkerbo
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
Erik Demaine - New Ways to Fold a Cube from Paper - CoM Oct 2021
What shapes of paper can fold into a unit cube? This seemingly simple question has many interesting answers and open problems, depending on what type of folding is allowed. In particular, we’ll see a new way to fold a 3 × 3 square into a unit cube using horizontal, vertical, and diagonal c
From playlist Celebration of Mind 2021
Lecture 4: Efficient Origami Design
MIT 6.849 Geometric Folding Algorithms: Linkages, Origami, Polyhedra, Fall 2012 View the complete course: http://ocw.mit.edu/6-849F12 Instructor: Erik Demaine This lecture continues to discuss the tree method and characterizing a uniaxial base. Another algorithm, Origamizer, is presented
From playlist MIT 6.849 Geometric Folding Algorithms, Fall 2012
What are four types of polygons
👉 Learn about polygons and how to classify them. A polygon is a plane shape bounded by a finite chain of straight lines. A polygon can be concave or convex and it can also be regular or irregular. A concave polygon is a polygon in which at least one of its interior angles is greater than 1
From playlist Classify Polygons