• Efficiency! Move liquid waste and manure longer distances more efficiently

    Robust Hydraulic drive pump unloads tanker trailers quickly • 6” offload: 1,500-1,600 GPM • 8” offload: 2,000- 2,100 GPM (Larger capacity also creates less foaming when loading spreaders) • 8” High Rate: 3,300-3400 GPM

    published: 14 Jan 2016
  • HOW TO: move or transport your aquarium fish long distances safely

    These are some methods that I use to transport aquarium fish over long distances.

    published: 30 Jan 2017
  • Savoir évaluer les distances dans les rétroviseurs (autoroute& changement de file)

    hey coucou , les Apprentis Ici vous allez apprendre a évaluer les distances dans les rétroviseurs vous pourrez - vous insérez -changer de files -dépasser et se rabattre -analyser les distances dans les rétros comprendre la capacité d’accélération

    published: 12 Oct 2015
  • Omarion - Distance [Official Music Video]

    Omarion - Distance from the upcoming album Reasons Download/Stream - https://Atlantic.lnk.to/Distance Follow Omarion https://www.facebook.com/omarion/ https://twitter.com/1Omarion https://www.instagram.com/1omarion/ https://www.1omarion.com

    published: 10 Feb 2017
  • Moving Pet Fish : Moving Fish Long Distances

    Watch as a seasoned expert demonstrates how to move a pet fish long distances in this free online video about exotic pet care. Expert: Holly Martz Bio: Holly Martz has a passion for animals. Ever since she was a child she would always take animals in need of a home. Filmmaker: Daniel Shearer

    published: 21 Mar 2008
  • The Science of Marathon Running

    I ran one… FOR SCIENCe! Subscribe to It's Okay To Be Smart: http://bit.ly/iotbs_sub ↓ More below ↓ So maybe we can't outrun cheetahs or antelope, but humans are uniquely adapted for long distance running. What does science have to say about marathon running? To find out, (and because I was feeling a little crazy) I decided to run one! Here's what I discovered about the science of long distance running Endurance running adaptations: http://upload.wikimedia.org/wikipedia/commons/7/7d/Human_Running_Adaptations.png For more on the science and evolution of distance running, from training plans to cellular physiology, check out Tim Noakes' "The Lore of Running" http://amzn.to/1eKYir9 and Christopher McDougall's "Born to Run" http://amzn.to/NnF7wb ----------------- Have an idea for an e...

    published: 17 Mar 2014
  • Distances From Here.

    The road is endless, the journey long, a moment to ponder the next move, we return back a little wiser.

    published: 03 May 2010
  • Powers of Ten™ (1977)

    Powers of Ten takes us on an adventure in magnitudes. Starting at a picnic by the lakeside in Chicago, this famous film transports us to the outer edges of the universe. Every ten seconds we view the starting point from ten times farther out until our own galaxy is visible only a s a speck of light among many others. Returning to Earth with breathtaking speed, we move inward- into the hand of the sleeping picnicker- with ten times more magnification every ten seconds. Our journey ends inside a proton of a carbon atom within a DNA molecule in a white blood cell. POWERS OF TEN © 1977 EAMES OFFICE LLC (Available at www.eamesoffice.com)

    published: 27 Aug 2010
  • Misconceptions About the Universe

    Can we see things travelling faster than light? Check out Audible: http://bit.ly/AudibleVe Music by Amarante "One Last Thing" http://bit.ly/VeAmarante Awesome animations by http://youtube.com/minutephysics Thanks to Prof. Geraint Lewis for input on earlier drafts of this video. The expanding universe is a complicated place. During inflation the universe expanded faster than light, but that's something that actually happens all the time, it's happening right now. This doesn't violate Einstein's theory of relativity since nothing is moving through space faster than light, it's just that space itself is expanding such that far away objects are receding rapidly from each other. Common sense would dictate that objects moving away from us faster than light should be invisible, but they aren't. ...

    published: 27 May 2014
  • How Large is the Universe?

    The universe has long captivated us with its immense scales of distance and time. How far does it stretch? Where does it end, and what lies beyond its star fields and streams of galaxies extending as far as telescopes can see? These questions are beginning to yield to a series of extraordinary new lines of investigation and technologies that are letting us to peer into the most distant realms of the cosmos. But also at the behavior of matter and energy on the smallest of scales. Remarkably, our growing understanding of this kingdom of the ultra-tiny, inside the nuclei of atoms, permits us to glimpse the largest vistas of space and time. In ancient times, most observers saw the stars as a sphere surrounding the earth, often the home of deities. The Greeks were the first to see celestial e...

    published: 18 Sep 2012
  • If the Moon were replaced with some of our planets

    New Video!: https://www.youtube.com/watch?v=oBDZtt0vWD8 This is a visualization of what it might be like if the Moon was replaced with some of the other planets at the same distance as our moon In order show: Mars Venus Neptune Uranus Jupiter Saturn Mercury is intentionally left off as it isn't Much bigger than our Moon (and hence is boring) Everything is correctly scaled. The Axial tilts are not particularly accurate. the moon that flies in front of Saturn is Tethys. It is Tiny. but *very* close Dione would be on a collision course, it's orbital distance from Saturn is Nearly identical to our Moon's orbit around Earth Titan, which is Larger than our Moon, is outside the orbit of Dione **************** on Jupiter, you might be able to make out the 4 big moons, They all have orbits ...

    published: 11 Jan 2013
  • Switching, Shifting and 'Secret Switching' For Clear Eyesight at All Distances

    Method to help people improve their eyesight, often quickly. Created for our Community GuestPage. (Do this without eyeglasses; no glasses, no contacts, no sunglasses.) A easy and quick practice to obtain and retain clear eyesight at all distances, close and far for life. Cures myopia, presbyopia, farsight, astigmatism and other eye-vision conditions. Part eye exercise, mainly The Bates Method. Is a old but still in use Behavioral Optometry practice, with additional practices. Most eye doctors, eyesight teachers tell you to just look close and far, as a rapid forceful back and forth drill. This might bring a little improvement but not much and it is not permanent. The practice in this video incorporates the Bates Method (by Ophthalmologist William H. Bates) into the exercise making ...

    published: 21 Jun 2014
  • (2013) ADVANCED MELBOURNE SHUFFLE TUTORIAL - Moves to Reach More Distances

    Video made early 2013 and uploaded now :) __________________________________________ I made this video because of the amount of request i recieved on my tricks/moves. Name of the tricks/moves aren't official 0:07 Air slide ? 1:00 Kicks/slides 1:50 Personal Slides 2:40 Push the gorund 3:20 Running man Forward/backward

    published: 02 Jun 2016
  • To Scale: The Solar System

    On a dry lakebed in Nevada, a group of friends build the first scale model of the solar system with complete planetary orbits: a true illustration of our place in the universe. A film by Wylie Overstreet and Alex Gorosh alexgorosh.com wylieoverstreet.com Feel like supporting more films like this? Consider becoming a Patron: https://www.patreon.com/toscaleseries?ty=h _____ Watch in Russian: https://youtu.be/pH3e1KgxjOc Help us caption & translate this short film: http://amara.org/v/HHTb/ Copyright (C) 2015

    published: 16 Sep 2015
  • How To transfer Big Files Through Internet at Long Distances || Easily

    Must Watch If You want To Transfer files. Its An Easy way. Sender can save his Internet Pack. As sender only need 1 -2 m.b. Internet to share.But the the receiver need whole amount of Internet of the File Size. Don't Forget To subscribe. Brought To You by :- MahakPreet Singh

    published: 29 Sep 2015
  • How Far Away Is It - 03 - The Solar System (1080p)

    Text at http://howfarawayisit.com/documents/ See 2014 update for Comets and Oort Cloud: https://youtu.be/MXYan2wA6io In this segment of our "How far away is it" video book, we cover distances inside our Solar System. We start out with a brief history beginning with how Nicolas Copernicus used planetary retrograde motion to help move us from the Earth-centric view to the Sun-centric view of our Solar System. We work our way through the contributions made by: Tycho Brahe and his detailed observations made with mural quadrants and sextants; Kepler and his mathematics of elliptical orbits; and Galileo and his observations using the newly invented telescope. We conclude this history with Newton and his theory of gravity. Gravity gives us the first opportunity to explain the inverse square l...

    published: 17 Aug 2013
Efficiency! Move liquid waste and manure longer distances more efficiently

Efficiency! Move liquid waste and manure longer distances more efficiently

  • Order:
  • Duration: 0:44
  • Updated: 14 Jan 2016
  • views: 465
videos
Robust Hydraulic drive pump unloads tanker trailers quickly • 6” offload: 1,500-1,600 GPM • 8” offload: 2,000- 2,100 GPM (Larger capacity also creates less foaming when loading spreaders) • 8” High Rate: 3,300-3400 GPM
https://wn.com/Efficiency_Move_Liquid_Waste_And_Manure_Longer_Distances_More_Efficiently
HOW TO: move or transport your aquarium fish long distances safely

HOW TO: move or transport your aquarium fish long distances safely

  • Order:
  • Duration: 4:55
  • Updated: 30 Jan 2017
  • views: 223
videos
These are some methods that I use to transport aquarium fish over long distances.
https://wn.com/How_To_Move_Or_Transport_Your_Aquarium_Fish_Long_Distances_Safely
Savoir évaluer les distances dans les rétroviseurs (autoroute& changement de file)

Savoir évaluer les distances dans les rétroviseurs (autoroute& changement de file)

  • Order:
  • Duration: 6:14
  • Updated: 12 Oct 2015
  • views: 32931
videos
hey coucou , les Apprentis Ici vous allez apprendre a évaluer les distances dans les rétroviseurs vous pourrez - vous insérez -changer de files -dépasser et se rabattre -analyser les distances dans les rétros comprendre la capacité d’accélération
https://wn.com/Savoir_Évaluer_Les_Distances_Dans_Les_Rétroviseurs_(Autoroute_Changement_De_File)
Omarion - Distance [Official Music Video]

Omarion - Distance [Official Music Video]

  • Order:
  • Duration: 3:55
  • Updated: 10 Feb 2017
  • views: 12184413
videos
Omarion - Distance from the upcoming album Reasons Download/Stream - https://Atlantic.lnk.to/Distance Follow Omarion https://www.facebook.com/omarion/ https://twitter.com/1Omarion https://www.instagram.com/1omarion/ https://www.1omarion.com
https://wn.com/Omarion_Distance_Official_Music_Video
Moving Pet Fish : Moving Fish Long Distances

Moving Pet Fish : Moving Fish Long Distances

  • Order:
  • Duration: 1:31
  • Updated: 21 Mar 2008
  • views: 15230
videos
Watch as a seasoned expert demonstrates how to move a pet fish long distances in this free online video about exotic pet care. Expert: Holly Martz Bio: Holly Martz has a passion for animals. Ever since she was a child she would always take animals in need of a home. Filmmaker: Daniel Shearer
https://wn.com/Moving_Pet_Fish_Moving_Fish_Long_Distances
The Science of Marathon Running

The Science of Marathon Running

  • Order:
  • Duration: 7:35
  • Updated: 17 Mar 2014
  • views: 1553808
videos
I ran one… FOR SCIENCe! Subscribe to It's Okay To Be Smart: http://bit.ly/iotbs_sub ↓ More below ↓ So maybe we can't outrun cheetahs or antelope, but humans are uniquely adapted for long distance running. What does science have to say about marathon running? To find out, (and because I was feeling a little crazy) I decided to run one! Here's what I discovered about the science of long distance running Endurance running adaptations: http://upload.wikimedia.org/wikipedia/commons/7/7d/Human_Running_Adaptations.png For more on the science and evolution of distance running, from training plans to cellular physiology, check out Tim Noakes' "The Lore of Running" http://amzn.to/1eKYir9 and Christopher McDougall's "Born to Run" http://amzn.to/NnF7wb ----------------- Have an idea for an episode or an amazing science question you want answered? Leave a comment below! Follow me on Twitter: @jtotheizzoe Email me: itsokaytobesmart AT gmail DOT com Facebook: http://www.facebook.com/itsokaytobesmart For more awesome science, check out: http://www.itsokaytobesmart.com Joe Hanson - Host and writer Joe Nicolosi - Director Amanda Fox - Producer, Spotzen IncKate Eads - Associate Producer Katie Graham - Director of Photography Andrew Matthews - Editor and motion graphics John Knudsen - Gaffer Music: "Ouroboros" by Kevin MacLeod Other music via APM Stock images via Shutterstock Produced by PBS Digital Studios: http://www.youtube.com/user/pbsdigitalstudios ----------- Last week's video: How The Elements Got Their Names - https://www.youtube.com/watch?v=mtg9p6A6xnY More videos: The Most Important Science Images - http://www.youtube.com/watch?v=Jd9328AW64g Science Fiction as Science Fact - http://www.youtube.com/watch?v=Ear4Prg9G8w The Science of Kissing - http://www.youtube.com/watch?v=dwJ-wwF9XVs The Scale of the Universe - http://www.youtube.com/watch?v=qhQ8jUKWef0
https://wn.com/The_Science_Of_Marathon_Running
Distances From Here.

Distances From Here.

  • Order:
  • Duration: 3:27
  • Updated: 03 May 2010
  • views: 69
videos
The road is endless, the journey long, a moment to ponder the next move, we return back a little wiser.
https://wn.com/Distances_From_Here.
Powers of Ten™ (1977)

Powers of Ten™ (1977)

  • Order:
  • Duration: 9:01
  • Updated: 27 Aug 2010
  • views: 4925823
videos
Powers of Ten takes us on an adventure in magnitudes. Starting at a picnic by the lakeside in Chicago, this famous film transports us to the outer edges of the universe. Every ten seconds we view the starting point from ten times farther out until our own galaxy is visible only a s a speck of light among many others. Returning to Earth with breathtaking speed, we move inward- into the hand of the sleeping picnicker- with ten times more magnification every ten seconds. Our journey ends inside a proton of a carbon atom within a DNA molecule in a white blood cell. POWERS OF TEN © 1977 EAMES OFFICE LLC (Available at www.eamesoffice.com)
https://wn.com/Powers_Of_Ten™_(1977)
Misconceptions About the Universe

Misconceptions About the Universe

  • Order:
  • Duration: 5:46
  • Updated: 27 May 2014
  • views: 3936549
videos
Can we see things travelling faster than light? Check out Audible: http://bit.ly/AudibleVe Music by Amarante "One Last Thing" http://bit.ly/VeAmarante Awesome animations by http://youtube.com/minutephysics Thanks to Prof. Geraint Lewis for input on earlier drafts of this video. The expanding universe is a complicated place. During inflation the universe expanded faster than light, but that's something that actually happens all the time, it's happening right now. This doesn't violate Einstein's theory of relativity since nothing is moving through space faster than light, it's just that space itself is expanding such that far away objects are receding rapidly from each other. Common sense would dictate that objects moving away from us faster than light should be invisible, but they aren't. This is because light can travel from regions of space which are superluminal relative to us into regions that are subluminal. So our observable universe is bigger than our Hubble sphere - it's limited by the particle horizon, the distance light could travel to us since the beginning of time as we know it.
https://wn.com/Misconceptions_About_The_Universe
How Large is the Universe?

How Large is the Universe?

  • Order:
  • Duration: 25:04
  • Updated: 18 Sep 2012
  • views: 1867916
videos
The universe has long captivated us with its immense scales of distance and time. How far does it stretch? Where does it end, and what lies beyond its star fields and streams of galaxies extending as far as telescopes can see? These questions are beginning to yield to a series of extraordinary new lines of investigation and technologies that are letting us to peer into the most distant realms of the cosmos. But also at the behavior of matter and energy on the smallest of scales. Remarkably, our growing understanding of this kingdom of the ultra-tiny, inside the nuclei of atoms, permits us to glimpse the largest vistas of space and time. In ancient times, most observers saw the stars as a sphere surrounding the earth, often the home of deities. The Greeks were the first to see celestial events as phenomena, subject to human investigation rather than the fickle whims of the Gods. One sky-watcher, for example, suggested that meteors are made of materials found on Earth... and might have even come from the Earth. Those early astronomers built the foundations of modern science. But they would be shocked to see the discoveries made by their counterparts today. The stars and planets that once harbored the gods are now seen as infinitesimal parts of a vast scaffolding of matter and energy extending far out into space. Just how far began to emerge in the 1920s. Working at the huge new 100-inch Hooker Telescope on California's Mt. Wilson, astronomer Edwin Hubble, along with his assistant named Milt Humason, analyzed the light of fuzzy patches of sky... known then as nebulae. They showed that these were actually distant galaxies far beyond our own. Hubble and Humason discovered that most of them are moving away from us. The farther out they looked, the faster they were receding. This fact, now known as Hubble's law, suggests that there must have been a time when the matter in all these galaxies was together in one place. That time, when our universe sprung forth, has come to be called the Big Bang. How large the cosmos has gotten since then depends on how long its been growing and its expansion rate. Recent precision measurements gathered by the Hubble space telescope and other instruments have brought a consensus... That the universe dates back 13.7 billion years. Its radius, then, is the distance a beam of light would have traveled in that time ... 13.7 billion light years. That works out to about 1.3 quadrillion kilometers. In fact, it's even bigger.... Much bigger. How it got so large, so fast, was until recently a deep mystery. That the universe could expand had been predicted back in 1917 by Albert Einstein, except that Einstein himself didn't believe it until he saw Hubble and Humason's evidence. Einstein's general theory of relativity suggested that galaxies could be moving apart because space itself is expanding. So when a photon gets blasted out from a distant star, it moves through a cosmic landscape that is getting larger and larger, increasing the distance it must travel to reach us. In 1995, the orbiting telescope named for Edwin Hubble began to take the measure of the universe... by looking for the most distant galaxies it could see. Taking the expansion of the universe into account, the space telescope found galaxies that are now almost 46 billion light years away from us in each direction... and almost 92 billion light years from each other. And that would be the whole universe... according to a straightforward model of the big bang. But remarkably, that might be a mere speck within the universe as a whole, according to a dramatic new theory that describes the origins of the cosmos.
https://wn.com/How_Large_Is_The_Universe
If the Moon were replaced with some of our planets

If the Moon were replaced with some of our planets

  • Order:
  • Duration: 1:43
  • Updated: 11 Jan 2013
  • views: 15744670
videos
New Video!: https://www.youtube.com/watch?v=oBDZtt0vWD8 This is a visualization of what it might be like if the Moon was replaced with some of the other planets at the same distance as our moon In order show: Mars Venus Neptune Uranus Jupiter Saturn Mercury is intentionally left off as it isn't Much bigger than our Moon (and hence is boring) Everything is correctly scaled. The Axial tilts are not particularly accurate. the moon that flies in front of Saturn is Tethys. It is Tiny. but *very* close Dione would be on a collision course, it's orbital distance from Saturn is Nearly identical to our Moon's orbit around Earth Titan, which is Larger than our Moon, is outside the orbit of Dione **************** on Jupiter, you might be able to make out the 4 big moons, They all have orbits larger than our moons orbit. but I stuck them on the far side of jupiter so that they could be seen so it looks as if they are closer (to Jupiter) than they really are. *************** Video creation method I created an Earth Moon system in 3dsmax, with accurate sizes and accurate orbital distances.. I than matched video of the real Moon with my video camera, against my model. I also researched the correct FOV of my video camera. I used both methods to verify my Virtual camera's FOV (around 47 degrees). I next modeled up the rest of the planets in proper scale (Real values) set at the distance of the moon (also real values), created the animation of them rotating around, and composited the whole bunch. *************** Faq: Scales used in Visualization: Celestial Body Radius (in km) Moon: 1738 Mars: 3397 Venus: 6052 Neptune: 25,269 (equatorial) 24,340 (polar) Uranus: 25,559 (equatorial) 24,973 (polar) Jupiter: 71,490 (equatorial) 66,854 (polar) Saturn: 60,268 (equatorial) 54,360 (polar) (not including rings) Distance to Moon 384,000km Faq: (will expand as needed) 1, We would not be engulfed by Jupiter or any other planet, Jupiter's radius is 71,490 km and the distance to the Moon is 384,000km 2, Saturn is not larger than Jupiter. Saturn + RINGS is larger than Jupiter 3, We would suffer from really really horrible tides, and Volcanoes And some pretty bad Radiation from Jupiter. It *could* strip away our atmosphere, but haven't done the math. Eventually our planet would become tidally locked (that is the same side of Earth would always face Jupiter. we would Still have some bad tides and volcanoes from being in a slightly ellipitical orbit, and from the other moons of Jupiter, and the Sun having tidal influence. I have not calculated how bad the Tides would be. A Simple guess would be at Least 300 times more exaggerated than they are now, This figure could be way off, it's simply an educated guess. 4, We would not be in the rings of Saturn. Or to rephrase that, we would not be in any of the Visable rings of Saturn, There are some very very faint rings that strech out far that we would be in, but i did not model them. 5, We would not be crushed by the Gravity of Jupiter, This is not how orbiting works!. However, at the Roche limit, we WOULD become a new ring system, The Roche limit is *about* 36,000km above the "surface" of Jupiter or 106,000km from the center of Jupiter. So, to reiterate if the center of Jupiter was 106,000km away from the center of the earth, Our planet would become a new Ring system of Jupiter. 6, I did not model the Ring of debris around Uranus (this faq will be deleted in a few days) 7, This is not an ad for any beer company, no one has endorsed me, or this animation, It's just the traffic that drove by. 8, There is Ring Shine on Saturn, but it is very faint, the Rings are reflecting light onto Saturn in the animation. The moon that flies by is Tethys 9, I love Pluto, and Mercury. They are left off because they are too small. Pluto is smaller than our Moon, and Mercury is not significantly larger than our Moon. 10, The "Sun" i used for lighting the planets is slightly off from reality, this was done so that they weren't totally dark and boring 11 FOV is about 47 degrees 12 Orbiting! Yes! we would be a moon of Saturn, Jupiter, Uranus, and Neptune. They are much more massive than the Earth. Venus is about the same size of the Earth and we would orbit around a center point between us 13 Rotation rates and axial tilts are not accurate to anything 14 Radius of the Sun is 695,500 km, and hence if it were where our Moon is, we would be engulfed by it
https://wn.com/If_The_Moon_Were_Replaced_With_Some_Of_Our_Planets
Switching, Shifting and 'Secret Switching' For Clear Eyesight at All Distances

Switching, Shifting and 'Secret Switching' For Clear Eyesight at All Distances

  • Order:
  • Duration: 14:01
  • Updated: 21 Jun 2014
  • views: 4028
videos
Method to help people improve their eyesight, often quickly. Created for our Community GuestPage. (Do this without eyeglasses; no glasses, no contacts, no sunglasses.) A easy and quick practice to obtain and retain clear eyesight at all distances, close and far for life. Cures myopia, presbyopia, farsight, astigmatism and other eye-vision conditions. Part eye exercise, mainly The Bates Method. Is a old but still in use Behavioral Optometry practice, with additional practices. Most eye doctors, eyesight teachers tell you to just look close and far, as a rapid forceful back and forth drill. This might bring a little improvement but not much and it is not permanent. The practice in this video incorporates the Bates Method (by Ophthalmologist William H. Bates) into the exercise making it relaxed, easy, natural as a exercise can be, using shifting 'a main Natural Eyesight Improvement function' and other natural practices. When you look at the close object; shift on it; move your attention from one small part to another small part, then another... Do the same on the far object. Move back to the close. Repeat. This is done only for 5-15 minutes 1-2 times a day. Skip some days. When the eyesight becomes clear people often do not need to do this. Only as a tune up 1-3 days a year to keep the eyesight better than 20/20, perfect. The rest of the time; shifting and the other Correct, Relaxed, Natural Vision Habits shown in our books, website are applied all the time, all day long 'as easy, effortless habits'. Example; if a clock on the church 5 blocks away is blurry; shift on it, blink. Shift on the numbers, hands, trace if you like. Shift on the church, then back to the clock. Avoid squinting, tension, staring, immobility. Trying hard to see lowers the eyesight. Relaxation, movement brings clear eyesight. The close pen can be placed at a variety of distances. 4 inches out to 1, 2, 3 feet, 10, 15. Does not have to be close all the time. Get a little close practice in to also keep close, reading vision clear. I like to use street signs, telephone poles standing at 1-10 feet from the closest and looking to the far which can extend for miles, then the horizon after the last pole. Perfect Sight Without Glasses is free in Color E-book here; http://cleareyesight-batesmethod.info/id148.html (See entire directions, pictures at the end of this book.) And in Paperback USA; http://www.amazon.com/William-H.-Bates/e/B004H9DOBC/ref=ntt_athr_dp_pel_pop_1 UK; http://www.amazon.co.uk/William-H.-Bates/e/B004H9DOBC/ref=sr_tc_2_0?qid=1369482041&sr=1-2-ent#/ref=la_B004H9DOBC_st?qid=1369482049&rh=n%3A266239%2Cp_82%3AB004H9DOBC&sort=reviewrank_authority See the website and GuestPage for more training; http://cleareyesight-batesmethod.info/id8.html http://naturaleyesightimprovement-batesmethod.com/GuestPage/index.php http://naturaleyesightimprovement-batesmethod.com/GuestPage/forum-19.html I've been way overloaded with work on books, movie, website.. for years so, I repeated myself in a few places in the video but did not cut it out because it ended up containing some additional training. Sometimes to repeat is good; makes us remember. Thanks to Mr. Spagetti on our GuestPage for getting me active on this 3 year old project. I'm always learning from students and other teachers. Thank you to every one of ya. Clark Night
https://wn.com/Switching,_Shifting_And_'Secret_Switching'_For_Clear_Eyesight_At_All_Distances
(2013) ADVANCED MELBOURNE SHUFFLE TUTORIAL  - Moves to Reach More Distances

(2013) ADVANCED MELBOURNE SHUFFLE TUTORIAL - Moves to Reach More Distances

  • Order:
  • Duration: 4:34
  • Updated: 02 Jun 2016
  • views: 2665
videos
Video made early 2013 and uploaded now :) __________________________________________ I made this video because of the amount of request i recieved on my tricks/moves. Name of the tricks/moves aren't official 0:07 Air slide ? 1:00 Kicks/slides 1:50 Personal Slides 2:40 Push the gorund 3:20 Running man Forward/backward
https://wn.com/(2013)_Advanced_Melbourne_Shuffle_Tutorial_Moves_To_Reach_More_Distances
To Scale: The Solar System

To Scale: The Solar System

  • Order:
  • Duration: 7:07
  • Updated: 16 Sep 2015
  • views: 2963211
videos
On a dry lakebed in Nevada, a group of friends build the first scale model of the solar system with complete planetary orbits: a true illustration of our place in the universe. A film by Wylie Overstreet and Alex Gorosh alexgorosh.com wylieoverstreet.com Feel like supporting more films like this? Consider becoming a Patron: https://www.patreon.com/toscaleseries?ty=h _____ Watch in Russian: https://youtu.be/pH3e1KgxjOc Help us caption & translate this short film: http://amara.org/v/HHTb/ Copyright (C) 2015
https://wn.com/To_Scale_The_Solar_System
How To transfer Big Files Through Internet at Long Distances || Easily

How To transfer Big Files Through Internet at Long Distances || Easily

  • Order:
  • Duration: 9:47
  • Updated: 29 Sep 2015
  • views: 3791
videos
Must Watch If You want To Transfer files. Its An Easy way. Sender can save his Internet Pack. As sender only need 1 -2 m.b. Internet to share.But the the receiver need whole amount of Internet of the File Size. Don't Forget To subscribe. Brought To You by :- MahakPreet Singh
https://wn.com/How_To_Transfer_Big_Files_Through_Internet_At_Long_Distances_||_Easily
How Far Away Is It - 03 - The Solar System (1080p)

How Far Away Is It - 03 - The Solar System (1080p)

  • Order:
  • Duration: 19:24
  • Updated: 17 Aug 2013
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Text at http://howfarawayisit.com/documents/ See 2014 update for Comets and Oort Cloud: https://youtu.be/MXYan2wA6io In this segment of our "How far away is it" video book, we cover distances inside our Solar System. We start out with a brief history beginning with how Nicolas Copernicus used planetary retrograde motion to help move us from the Earth-centric view to the Sun-centric view of our Solar System. We work our way through the contributions made by: Tycho Brahe and his detailed observations made with mural quadrants and sextants; Kepler and his mathematics of elliptical orbits; and Galileo and his observations using the newly invented telescope. We conclude this history with Newton and his theory of gravity. Gravity gives us the first opportunity to explain the inverse square law that will play such a central role in celestial distant measurements as we move out to the stars. We then explain planetary parallax as an extension to triangulation and use it to determine the distance to the Moon. We also illustrate all the additional information that becomes available once the distance is known, such as diameter, area and volume. Next, we take a look at the surface of Mars, the orbit of Mars and the Earth and the distance of Mars from the Sun, followed by distances of all the planets and Pluto from the Sun. We then focus on Jupiter to gain a feel for its size. We watch the comet Shoemaker Levy collide with Jupiter. We explain Lagrange Points and cover Jupiter's Trojan and Greek asteroids orbiting two of these points. This takes us to Earth's Trojan asteroid, 2010 TK7. Then, after covering the Kuiper Belt, we turn our attention to the Sun. We triangulate the Sun with Venus to calculate our distance from the Sun -- one Astronomical Unit. With distance to the Sun known, we calculate its diameter, surface area and volume; the length of Earth's orbit; the Earth's velocity around the Sun; and with that, the Sun's mass. Next, we use Jupiter's moon Io to calculate the speed of light and with that we calculate how long it takes the Sun's light to reach the Earth. We end with adding the parallax rung to our distance ladder. STEM
https://wn.com/How_Far_Away_Is_It_03_The_Solar_System_(1080P)