This caterpillar, found in the Peruvian Amazon, responds to sounds by stretching its tentacles.
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Read more about this bizarre caterpillar.
http://news.nationalgeographic.com/2015/04/150427-caterpillars-tentacles-rainforests-animals-peru-science/
Watch How This Caterpillar Reacts to Loud Noises | National Geographic
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تحدي الكتابة بالصوت | فهد سال VS عبدالاله
https://goo.gl/Luj4CM
السب والقذف من مسلمين | #بكاء_حلا_الترك
https://goo.gl/H2r6uE
تقدر تخمن جنسية شخص من اكله ؟؟
https://goo.gl/6Ry3Bw
تحدي اللهجات: اللبنانية مع ليلى مراد
https://goo.gl/8VXFK4
اسئلتكم لأسيل عمران: هل تتزوجي فهد سال ؟؟؟
https://goo.gl/HQACXL
بحل جريمة قتل ؟!
https://goo.gl/MrmSdu
فهد سال VS محمد سال
https://goo.gl/ueG4W3
موقع الاختبار
https://goo.gl/EpGZFc
تحدي اللهجة الكويتية
https://goo.gl/YZa4tO
فهد سال VS بن باز | تحدي الكتابة الصوتية
https://goo.gl/LArwb8
==================
Fight Scene by Audionautix is licensed under a Creative Commons Attribution license (https://creativecommons.org/licenses/by/4.0/)
Artist: http://audionautix.com/
In the first video of this project, Grant took a brain and silicone to show you how to make a silicone brain mold from a real cow brain. So…if you’re wondering how to make homemade gummy brain, brain mold, silicone brain, brain casting…check out that video! The steps Grant Thompson covered for making a silicone brain mold are super easy. If you have a real cow brain and some silicone, you can take brain molding to the next level! In this video we test the silicone mold. Would you eat a gummy zombie brain? I invited my friend Zack over for a snack, but he has no idea what’s on the menu!
This silicone brain mold project is also great for those wanting to know how to make other cool things with silicone: Halloween decorations, zombie decorations, zombie brain, silicon mold, science projects and more! Let us know what cool silicone mold experiments you create!
If you’re looking to try something new or for an activity such as: DIY silicone project, DIY brain mold, cool science experiments, fun weekend project, science brain mold, gummy brain, how to make a real brain mold, silicone casting, or just a fun project with the family, watch the video to learn more.
Here’s Part 1 of this project on how to make the brain cast mold from silicone: https://youtu.be/honikQEuQ2Q
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Music by: Bird Passengers – “See Saw”
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WARNING:
This video is only for entertainment purposes. If you rely on the information portrayed in this video, you assume the responsibility for the results. Have fun, but
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Programme website: http://bbc.in/2m3aPlq Rhoda goes to see Dr Turner with Susan. Nurse Crane examines Carrie
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This scientific visualization shows the development of Supernova 1987A, from the initial blast observed three decades ago to the luminous ring of material we see today.
The sequence, using data from a computer simulation, begins with the star before it exploded. A ring of material around the star was expelled about 20,000 years before the supernova outburst. A flash of light signals the stellar explosion. The supernova sends a blast wave outward from the dying star. As the blast wave slams into the ring, high-density knots of material become intensely heated and glow brightly, while lower-density gas is blown outward. The computer simulation provides one data set per year, and thus the visualization steps between them at four years per second. Upon reaching the present day, the time development is halted, and the camera circles around the ring to showcase its structure.
Visualization Credit: NASA, ESA, and F. Summers and G. Bacon (STScI)
Simulation Credit: S. Orlando (INAF-Osservatorio Astronomico di Palermo)
This scientific visualization shows the development of Supernova 1987A, from the initial blast observed three decades ago to the luminous ring of material we see today.
The sequence, using data from a computer simulation, begins with the star before it exploded. A ring of material around the star was expelled about 20,000 years before the supernova outburst. A flash of light signals the stellar explosion. The supernova sends a blast wave outward from the dying star. As the blast wave slams into the ring, high-density knots of material become intensely heated and glow brightly, while lower-density gas is blown outward. The computer simulation provides one data set per year, and thus the visualization steps between them at four years per second. Upon reaching the present day, the time development is halted, and the camera circles around the ring to showcase its structure.
Visualization Credit: NASA, ESA, and F. Summers and G. Bacon (STScI)
Simulation Credit: S. Orlando (INAF-Osservatorio Astronomico di Palermo)
This scientific visualization shows the development of Supernova 1987A, from the initial blast observed three decades ago to the luminous ring of material we see today.
The sequence, using data from a computer simulation, begins with the star before it exploded. A ring of material around the star was expelled about 20,000 years before the supernova outburst. A flash of light signals the stellar explosion. The supernova sends a blast wave outward from the dying star. As the blast wave slams into the ring, high-density knots of material become intensely heated and glow brightly, while lower-density gas is blown outward. The computer simulation provides one data set per year, and thus the visualization steps between them at four years per second. Upon reaching the present day, the time development is halted, and the camera circles around the ring to showcase its structure.
Visualization Credit: NASA, ESA, and F. Summers and G. Bacon (STScI)
Simulation Credit: S. Orlando (INAF-Osservatorio Astronomico di Palermo)
