CONTROLS: Mouse to move the space shuttle. Try to get to the Moon!
THIS GAME IS NOT ACCURATE Check Misguided Ninga's comment. A report on space: (Took hours, though.) As you know, the Voyager 2 spacecraft left the solar system in 2012; it entered interstellar space, a huge advancement in mechanical space exploration. But what is in that space? In interstellar space? Intergalactic space, even. What is out there? The thought to be impossible question has now been made possible. Thanks to modern electronics, we have been able to detect minute particles that do exist, but they only exist for an instant, however there are millions in one place at any given time. They are called a phenomenon. A phenomenon is anything that exists for an insanely short amount of time; they are 3D, as the fourth dimension is time.We live in a 4D reality, as we can measure the time a human lives for, and that is more than an instant. But who knows, we could think that we are 4D, but maybe to intelligent extraterrestrial life, our lifespan could seem like an instant to them. We can never know. Back to deep space particles. There are other particles in deep space, but there are different amounts in different types of space or vacuum. In a man-made vacuum, there is only a mere 100 per cubic centimeter. Compared to the 30 quintillion molecules per cubic centimeter in the earth's atmosphere, that is practically nothing. But we can go further. In interplanetary space, there is even less; there are 10 molecules per cubic centimeter. But there is another place where there is less. In interstellar space, there is just one molecule per cubic centimeter. But the real winner is intergalactic space. There there is literally one to two molecules in a cubic meter. That is the least molecules in any space at any given time recorded by the earth's dominant species, Homo Sapiens. Black holes are pinpoints of incredible mass, which are so dense not even light can escape from them. They also have a cousin, called a neutron star , which can spin at speeds so fast, they emit high energy waves. This is called a pulsar. So, black holes form when a high mass, short lifespan star (a supergiant) explodes in a spectacular fulmination, known as a supernova. After this formidable blast has occurred, if the solar mass is above 10, then it will become a black hole.Once the black hole is born, it will continue to grow, but can dissolve, thanks to hawking radiation. This will manifest when an antiparticle enters the black hole, but a particle breaks free; it is now not virtual, but a real particle. There is also a supermassive black hole at the center of every galaxy, which has solar masses of up to billions, hold the galaxy together, however they are too distant to cause us any harm. The only way to see a black hole is to look at a patch of sky with plenty of stars in it, then check that patch of sky every few hours. If there is no star in one place, then either it has turned into a brown dwarf star, or it has an object obstructing your view; that object is most likely to be a black hole. If a black hole collides with another black hole, the sound it makes is almost musical. It is only very recently that scientists have had the technology to pick up these incredibly minute ripples in deep space, getting to us hundreds of years after they happened. Black holes will also be here trillions of years after the era of the stars ends. The singularity is the part of a black hole where all the mass is. Everything it ‘sucks’ up ends up here after traveling past the event horizon. The event horizon is basically the ‘point of no return’, which when passed, nothing, not even light, can escape,this is why a black hole is black.The event horizon’s size varies depending on the black holes size, greater for large black holes, and lesser for small ones. AND THE MOON IS MADE OF CHEESE!
