Top row (from left to right): Junichi Mogi, MARCY (THE BAWDIES), Makoto Sakurai (Dragon Ash /
ATOM ON SPHERE), Gor ☆ geous, Ikeda Chocolat, Miyahara «TOYIN» Ryota (SPECIAL OTHERS), Yagashita «DAYO» Takeshi (SPECIAL OTHERS), Jun Itahiroba (Golden Bomber), Ken Maeda (Slim Club)
Not exact matches
In this artist's illustration, the NaK molecule is represented with frozen
spheres of ice merged together: the smaller
sphere on the left represents a sodium
atom, and the larger
sphere on the right is a potassium
atom.
To date the largest objects observed to engage in this quantum jiggery pokery are molecules with 60 carbon
atoms arranged like the pattern
on a traditional soccer ball and 48 fluorine
atoms coated
on the surface of that
sphere.
However, after dropping cesium
atoms on the aluminum
sphere and using sensitive lasers to measure the forces
on the
atoms while they were in a free fall for about 10 to 20 milliseconds, the researchers failed to detect any chameleon field.
According to the theory, chameleon fields would cause the cesium
atoms to accelerate differently depending
on the distance from the
sphere.
In 1986, Ashkin showed that the first optical
atom trap demonstrated at Bell Labs also worked
on tiny glass
spheres embedded in water.
Question: If all of the 10 ^ 50 heavy
atoms on earth were built up in first - generation supernova's like the Crab Nebula, and then were randomly blown by that exploding supernova across the galaxy into our solar system, how many Crab Nebula's were required to simultaneously blow up if all of them were in a
sphere only only 5 light years away from the solar system?