out of mind

there is a place you can go, even for just a moment - to contemplate reality. to absorb knowledge. to become more scientifically literate than you were before. in this place you may see things that frighten you, that shock you, that force you to question the world around you. within this place you have the ability to discuss, contemplate & define your own inner peace. this is a place that strives to educate in order to achieve a more harmonious balance with the world & grasp the actions needed to perfect our life, our world or our own personal corner of the planet. within this place, your ideas, current education, ideals, traditions & religions may be tested. this place will challenge your mind, build your courage & embrace your fears. this place encourages you to understand your place in the universe. just like the world we know, this will not always be a safe place. this place is not a room to hide in, it is a gateway to a higher sense of purpose. this place is an open door that allows you to move freely at your own pace without prejudice or judgement. this is that place. and it's yours. and ultimately, it's whatever you need it to be in your place in time. peace & love to each of you. enjoy.

thoughts? post away.

Photo 91
Notes

scinerds:

Crab Nebula: A Star’s Spectacular Death (NASA, Chandra, 10/24/06) (by NASA’s Marshall Space Flight Center)

A star’s spectacular death in the constellation Taurus was observed on Earth as the supernova of 1054 A.D. Now, almost a thousand years later, a superdense neutron star left behind by the stellar death is spewing out a blizzard of extremely high-energy particles into the expanding debris field known as the Crab Nebula.

This composite image uses data from three of NASA’s Great Observatories. The Chandra X-ray image is shown in light blue, the Hubble Space Telescope optical images are in green and dark blue, and the Spitzer Space Telescope’s infrared image is in red. The size of the X-ray image is smaller than the others because ultrahigh-energy X-ray emitting electrons radiate away their energy more quickly than the lower-energy electrons emitting optical and infrared light. The neutron star, which has the mass equivalent to the sun crammed into a rapidly spinning ball of neutrons twelve miles across, is the bright white dot in the center of the image.

Image credit:
Credit: X-ray: NASA/CXC/ASU/J.Hester et al.; Optical: NASA/ESA/ASU/J.Hester & A.Loll; Infrared: NASA/JPL-Caltech/Univ. Minn./R.Gehrz

Learn more about Chandra:
www.nasa.gov/chandra
chandra.harvard.edu/photo/2006/crab/

(via myheadisweak)

#science #astronomy