Welkom in mijn virtuele realiteit

We leven in een fantastische tijd. Waarin technologie het mogelijk maakt om dieper te gaan, hoger te mikken en verder te reiken dan ooit tevoren. We zijn in staat om synthetisch leven te creëren, onze genetische blauwdruk te veranderen, quantum supercomputers te bouwen, virtuele werelden van galactische proporties te betreden en dit alles te voorzien van kunstmatige intelligentie.

De wereld waarin we leven verandert hierdoor drastisch en onomkeerbaar. Dit nodigt ieder van ons uit onszelf de volgende vragen te stellen: 'wat is deze realiteit waarin ik me bevind, waar is deze uit opgebouwd en hoe navigeer ik hierin?' En meer nog: 'wie ben ik eigenlijk en wat betekent het om werkelijk Mens te zijn in deze toenemende High Tech wereld?'  #knowthyself

'Today, being Human is the biggest act of heroism'

Ga mee op Heldenreis: stap uit je comfort zone, boost je #bewustzijn, (her)activeer je #innertechnology , shift je  #perceptie en  imagineer jouw eigen toekomst_

Recente artikelen

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31-Aug-2019
From Orbiter

Can we ever be really sure we’ve learned everything about nature?

“What we observe is not nature itself, but nature expose to our method of questioning.” — Werner Heisenberg

How much can we know of the world? This, of course, is the central question for physics, and has been since the beginning not just of modern science as we know it, but of Western philosophy.

Around 650 BCE, Thales of Miletus first speculated on the basic material fabric of reality. The essential tension here is one of perception. To describe the world, we must see it, sense it, and go beyond, measuring it in all its subtle details. The problem is the “all.” We humans are necessarily blind to many aspects of physical reality, and those aspects that we do capture are necessarily colored through the lenses of our perception.

26-Aug-2019
From Phys.org
Tissue engineers create artificial organs and tissues that can be used to develop and test new drugs, repair damaged tissue and even replace entire organs in the human body. However, current fabrication methods limit their ability to produce free-form shapes and achieve high cell viability.

Researchers at the Laboratory of Applied Photonics Devices (LAPD), in EPFL's School of Engineering, working with colleagues from Utrecht University, have come up with an optical technique that takes just a few seconds to sculpt complex tissue shapes in a biocompatible hydrogel containing stem cells. The resulting tissue can then be vascularized by adding endothelial cells.
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