Elevate the dress code with this hacker-chic dress!
Wear the power of code with this elevated tech dress! If you're looking for that perfect outfit for a work or tech event, this sophisticated conversation starter will surely do the trick.
This dress is lovely, and it has been complimented a lot. I love it because it reflects the interdisciplinary nature of my research so well. I've received many compliments for it, and it is an excellent conversation starter.
Do Note however, that the text is quite small and it does run the whole length of your body, so people will stare at you, and come close to read it, and that can cause some awkward moments...but then I wouldn't want to change the size of the font, so I think it's perfect as is.
Math + Fashion go quite well together! This mathematically fashionable dress is calculated to be fabulously figure flattering. The next number is found by adding up the two numbers before it. When we make squares with those widths, we get a nice spiral...It is that simple!
What's your fashion element?
Shake up your wardrobe with this chemistry-chic dress, inspired by Yves Saint Laurent's famous "Mondrian Dress". Features the Periodic Table on both front and back.
Want to wear the fabric of space time?
Celebrate the discovery of gravitational waves with this smart casual look. At first glance, you see plaid. Look a bit further and- surprise, you'll recognize the data from the LIGO detectors. It's a classic professional dress with an educational twist.
These plots show the signals of gravitational waves detected by the twin LIGO observatories at Livingston, Louisiana, and Hanford, Washington. The signals came from two merging black holes, each about 30 times the mass of our sun, lying 1.3 billion light-years away.
The top two plots show data received at Livingston and Hanford, along with the predicted shapes for the waveform. These predicted waveforms show what two merging black holes should look like according to the equations of Albert Einstein's general theory of relativity, along with the instrument's ever-present noise. Time is plotted on the X-axis and strain on the Y-axis. Strain represents the fractional amount by which distances are distorted.
As the plots reveal, the LIGO data very closely match Einstein's predictions.
Digitally Printed Material: