-Bonjour.

Gracia, belleza, armonía, intensidad. Si encuentro esas cosas, entonces quizá reconsidere las opciones; si encuentro un movimiento bello de los cuerpos, a falta de una idea bella para el espíritu, entonces quizá piense que vale la pena vivir.

(vía simply-boho)

Photo
wave-dancer: i love this!

wave-dancer:

i love this!

Photo
ikenbot: Saturn’s Hexagon This is a view of Saturn’s north polar region, taken by Cassini’s Imaging Science Subsystem (ISS) on February 26, 2013. You can see the rings in the top of this image as well as its mysterious hexagon. — Val Klavans

ikenbot:

Saturn’s Hexagon

This is a view of Saturn’s north polar region, taken by Cassini’s Imaging Science Subsystem (ISS) on February 26, 2013. You can see the rings in the top of this image as well as its mysterious hexagon. — Val Klavans

Photo

allisonunsupervised:

All your followers have likely seen anything already reblogged and hearted 87,000 times. 

Reblog and heart anything that makes you feel as you do when you read this anyway. 

(vía iamlittlei)

Photoset

showslow:

Alexander Remnev, On the edge

Photoset
1ucasvb: The familiar trigonometric functions can be geometrically derived from a circle. But what if, instead of the circle, we used a regular polygon? In this animation, we see what the “polygonal sine” looks like for the square and the hexagon. The polygon is such that the inscribed circle has radius 1. We’ll keep using the angle from the x-axis as the function’s input, instead of the distance along the shape’s boundary. (These are only the same value in the case of a unit circle!) This is why the square does not trace a straight diagonal line, as you might expect, but a segment of the tangent function. In other words, the speed of the dot around the polygon is not constant anymore, but the angle the dot makes changes at a constant rate. Since these polygons are not perfectly symmetrical like the circle, the function will depend on the orientation of the polygon. More on this subject and derivations of the functions can be found in this other post Now you can also listen to what these waves sound like. This technique is general for any polar curve. Here’s a heart’s sine function, for instance

1ucasvb:

The familiar trigonometric functions can be geometrically derived from a circle.

But what if, instead of the circle, we used a regular polygon?

In this animation, we see what the “polygonal sine” looks like for the square and the hexagon. The polygon is such that the inscribed circle has radius 1.

We’ll keep using the angle from the x-axis as the function’s input, instead of the distance along the shape’s boundary. (These are only the same value in the case of a unit circle!) This is why the square does not trace a straight diagonal line, as you might expect, but a segment of the tangent function. In other words, the speed of the dot around the polygon is not constant anymore, but the angle the dot makes changes at a constant rate.

Since these polygons are not perfectly symmetrical like the circle, the function will depend on the orientation of the polygon.

More on this subject and derivations of the functions can be found in this other post

Now you can also listen to what these waves sound like.

This technique is general for any polar curve. Here’s a heart’s sine function, for instance

Photo

definitelydope:

By Miki Takahashi

(vía bonsoir-lune)

Photoset
2012 Best + Worst Books

Mi reto fue de 24 libros este año, estos son los mejores y peores.

Mejores Libros del 2012

1. Tokio Blues, Haruki Murakami

2. Siempre el mismo Día (One Day), David Nicholls

3. Las Ventajas de Ser Invisible (The Perks of Being a Wallflower), Stephen Chbosky

4. Los amos de México, coordinado por Jorge Zepeda Patterson

Peores Libros del 2012

1. Recipe Club, Andrea Israel

2. Introducción a las Matemáticas, Ziauddin Saddar

Text
wave-dancer: ✌

wave-dancer:

Photo

(vía bonsoir-lune)

Photo
Single A Theme :: Version 1.3.1 :: By Business Bullpen