Media Summary: I present the easiest way to understand curved Collatz conjecture: start with a positive integer; if it is even, divide it by 2; otherwise, multiply by 3, add 1, divide by 2 In this ... Joint work with Saul Schleimer. In this short video we show how various models of

Collision In 3d Hyperbolic Space - Detailed Analysis & Overview

I present the easiest way to understand curved Collatz conjecture: start with a positive integer; if it is even, divide it by 2; otherwise, multiply by 3, add 1, divide by 2 In this ... Joint work with Saul Schleimer. In this short video we show how various models of Mathematicians make virtual reality art to create a color-splashed playground for physicists and mathematicians to wander about ... An immersive spin around the {3,7,3} honeycomb in the upper half with fixed center (at infinity) and varying radius. For more information, videos and interactive material, see my blog pages on: ...

Edited demo footage of Nottingham MSC Summer project A phylogenetic tree is a hierarchical graph used to represent ...

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Collision in 3D Hyperbolic Space: Upper Half-Space Model
Collision in 3D Hyperbolic Space: Ball Model
Non-Euclidean Geometry Explained - Hyperbolica Devlog #1
Birds in Hyperbolic Space
Collatz Conjecture in 3D Hyperbolic Space
Illuminating hyperbolic geometry
Take a psychedelic trip to hyperbolic space in virtual reality.
Buliding a hyperbolic tessellation
Spherical Geometry Is Stranger Than Hyperbolic - Hyperbolica Devlog #2
Hyperbolic Catacombs Carousel
Concentric horocycles in hyperbolic geometry
Visualizing phylogenetic trees in virtual reality using hyperbolic space
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Collision in 3D Hyperbolic Space: Upper Half-Space Model

Collision in 3D Hyperbolic Space: Upper Half-Space Model

The video shows physics in

Collision in 3D Hyperbolic Space: Ball Model

Collision in 3D Hyperbolic Space: Ball Model

The video shows physics in

Non-Euclidean Geometry Explained - Hyperbolica Devlog #1

Non-Euclidean Geometry Explained - Hyperbolica Devlog #1

I present the easiest way to understand curved

Birds in Hyperbolic Space

Birds in Hyperbolic Space

A flocking simulation in

Collatz Conjecture in 3D Hyperbolic Space

Collatz Conjecture in 3D Hyperbolic Space

Collatz conjecture: start with a positive integer; if it is even, divide it by 2; otherwise, multiply by 3, add 1, divide by 2 In this ...

Illuminating hyperbolic geometry

Illuminating hyperbolic geometry

Joint work with Saul Schleimer. In this short video we show how various models of

Take a psychedelic trip to hyperbolic space in virtual reality.

Take a psychedelic trip to hyperbolic space in virtual reality.

Mathematicians make virtual reality art to create a color-splashed playground for physicists and mathematicians to wander about ...

Buliding a hyperbolic tessellation

Buliding a hyperbolic tessellation

Building {3,7}

Spherical Geometry Is Stranger Than Hyperbolic - Hyperbolica Devlog #2

Spherical Geometry Is Stranger Than Hyperbolic - Hyperbolica Devlog #2

A quick look at spherical

Hyperbolic Catacombs Carousel

Hyperbolic Catacombs Carousel

An immersive spin around the {3,7,3} honeycomb in the upper half

Concentric horocycles in hyperbolic geometry

Concentric horocycles in hyperbolic geometry

with fixed center (at infinity) and varying radius. For more information, videos and interactive material, see my blog pages on: ...

Visualizing phylogenetic trees in virtual reality using hyperbolic space

Visualizing phylogenetic trees in virtual reality using hyperbolic space

Edited demo footage of Nottingham MSC Summer project A phylogenetic tree is a hierarchical graph used to represent ...

Horosphere Packings of the (3, 3, 6) Coxeter Honeycomb in Three-Dimensional Hyperbolic Space

Horosphere Packings of the (3, 3, 6) Coxeter Honeycomb in Three-Dimensional Hyperbolic Space

http://demonstrations.wolfram.com/HorospherePackingsOfThe336CoxeterHoneycombInThreeDimensional/ The Wolfram ...