"Dumbledore asked that I give you something"

oozey mess

❣ Chile in a Photography ❣
NASA
Aqua Utopia|海の底で記憶を紡ぐ

if i look back, i am lost
Mike Driver
sheepfilms

blake kathryn
RMH
Cosmic Funnies
occasionally subtle
untitled
Three Goblin Art
"I'm Dorothy Gale from Kansas"
Keni
todays bird

PR's Tumblrdome
No title available
Jules of Nature
$LAYYYTER
seen from Kenya

seen from Pakistan
seen from Türkiye

seen from United Kingdom

seen from Japan

seen from Malaysia

seen from Poland
seen from United States
seen from United States

seen from United States
seen from United States
seen from United States
seen from United States
seen from United States
seen from United States
seen from United States

seen from United States

seen from United States
seen from United States
seen from United States
@pottersys
"Dumbledore asked that I give you something"
who is @pottersys? #tw (at Paris, Costanera Center)
Sales guy talking technical with us
[thecodinglove]
When I am the only available developer in the office
MARCUS AURELIUS: A meditation
Exploring music and math
How is it that Beethoven, who is celebrated as one of the most significant composers of all time, wrote many of his most beloved songs while going deaf? The answer lies in the math behind his music. Using the “Moonlight Sonata”, we can begin to understand the way Beethoven was able to convey emotion and creativity using the certainty of mathematics.
The standard piano octave consists of 13 keys, each separated by a half step. A standard major or minor scale uses 8 of these keys with 5 whole step intervals and 2 half step ones.
The first half of measure 50 of “Moonlight Sonata” consists of three notes in D major, separated by intervals called thirds that skip over the next note in the scale. By stacking the notes first, third, and fifth notes - D, F sharp, and A - we get a harmonic pattern known as a triad.
But, these aren’t just arbitrary magic numbers. Rather, they represent the mathematical relationship between the pitch frequencies of different notes, which form a geometric series. The stacking of these three frequencies creates ‘consonance’, which sounds naturally pleasant to our ears. Examining Beethoven’s use of both consonance and dissonance can help us begin to understand how he added the unquantifiable elements of emotion and creativity to the certainty of mathematics.
For a deeper dive into the mathematics of the “Moonlight Sonata”, watch the TED-Ed Lesson Music and math: The genius of Beethoven - Natalya St. Clair
Animation by Qa’ed Mai
Belgian architect group, Gijs Van Vaerenbergh, built a church in Belgium, and it’s pretty plain from certain angles. From others, the structure reveals itself to be something else entirely: a building that’s almost entirely see through.
The project, named “Reading Between the Lines,” is a composition of 100 layers of stacked steel, that are equidistantly staggered in a way that illusively change in appearance based on where the viewer is standing.
La ejecutiva de cuentas leyendo el brief del cliente
"Cuando el cliente pide revertir los cambios hechos al sitio"
[jaidefinichon]