How high can you jump on the planets of the solar system? A 3D simulation of the height to which we can jump according to gravity on the planets of the solar system: the Earth and its natural satellite the Moon, Mercury, Venus, Mars and its satellite Phobos, Ceres, Jupiter and its satellite Ganymede , Saturn and its satellite Titan, Uranus, Neptune and its satellite Triton, Pluto and Eris.
First Interstellar Asteroid Wows Scientists Scientists were surprised and delighted to detect --for the first time-- an interstellar asteroid passing through our solar system. Additional observations brought more surprises: the object is cigar-shaped with a somewhat reddish hue. The asteroid, named ‘Oumuamua by its discoverers, is up to one-quarter mile (400 meters) long and highly-elongated—perhaps 10 times as long as it is wide. That is unlike any asteroid or comet observed in our solar system to date, and may provide new clues into how other solar systems formed. For more info about this discovery, visit https://go.nasa.gov/2zSJVWV .
DRONE Solar System Model- How far is Planet 9? I heart space but sometimes it can be hard to comprehend. I try to fix that in this video with junk you can find lying around your house. Also, if you’ve wondered how there could be a ninth planet that we’ve never noticed till now I try to clear that up too by demonstrating just how impossibly far away it is.
Magnesium Fuel Cell Battery and Sun-light Pumped Laser The introductory video published by our Company, Energy Genesis Cycle, Inc. (abbr. EGC), shows all of you the complete renewable energy system that uses magnesium as energy carrier and solar-energy-pumped laser. Ultra small magnesium battery of fuel-cell type is used as demonstration for cell phone and electric car. These technology have been patented by Prof. Takashi Yabe. Tokyo Institute of Technology.
Tesla catches fire in Vancouver, Canada the driver had to break the window to be able to escape because the electrical system was no longer working and he was completely stuck inside!
Journey to the supermassive black hole at the center of our galaxy Watch this video footage that zooms in on the black hole (Sgr A*) at the center of our galaxy. After an overview of the Milky Way, we dive into the dense clouds of gas and dust at the center of our galaxy. The stars in it have been observed by ESO's Very Large Telescope and ESO's Very Large Telescope Interferometer for decades, with the black hole's immense gravitational pull distorting the orbits of the largest stars. close to him. Finally, we come to Sgr A*, from which the first image was obtained. The black hole is represented by a dark central region called a shadow, surrounded by a ring of gas and luminous dust. The various observations used here were taken at different times, by different teams and with different facilities, and put together for the purposes of the zoom effect. The images range from early visible wavelengths all the way to infrared, with the very last image taken at radio wavelengths.