1. Can a black hole be seen? How do you know it’s a black hole?

  No, it can’t be seen. You can see things disappear into what appears to be empty space.

2. What happened to the spaceship from the beginning to the end?

At first the lights on the spaceship   went out and the computer stopped working. Then the spaceship jumped and began to move around the edge of the outside of the hole.

As the spaceship moved around the hole, it began to go faster and faster.

But then the spaceship jumped again, and it moved sideways from the black hole. It began to increase its speed until it seemed to be going as fast as light.

As last the spaceship slowed down and the computer started working again.

3.Suppose you are a scientist reading this passage. Use this checklist to discover the new ideas about “black holes”. Then write them for the other scientists to read about.

   CAUGHT BY A BLACK HOLE

       The spaceship warned Li Yanping and me to be ready as we were approaching (靠近) the "black hole". We could see some faint lights around what looked like an empty space. Li Yanping said, "That empty hole is like a mouth always needing to be fed. Those lights are things that are being pulled into it by the gravity of the hole." We watched with interest and amazement at the lights which seemed to be going fainter and fainter round the edge of the black hole. Just then the lights on our spaceship went out and the computer stopped working. What was happening? I tried to turn the spaceship away from the hole but it would not move. Would it eat us too?
      Suddenly the spaceship jumped and began to move round the edge of the hole too. The gravity of the "black hole" was pulling us into its "mouth". As the spaceship moved round the black hole, I felt rather sick. My mouth went dry and I closed my eyes. All the stories about what happened when you were caught by the gravity of a "black hole" seemed to be true.
      But then the spaceship jumped again. This time it moved sideways and away from the edge of the "black hole". Someone watching me would have seen the spaceship flying like a bird away from the "black hole". But we felt nothing. At last we were able to look around us. Luckily the computer had started working again. We realized that we had discovered something new about "black holes". If you go inside the edge of a "black hole", it will "eat" you and there is no escape; but if you do not, you may have an opportunity to escape. How exciting!

What is a black hole?

A black hole is a region of spacetime from which nothing can escape, even light.

To see why this happens, imagine throwing a tennis ball into the air. The harder you throw the tennis ball, the faster it is travelling when it leaves your hand and the higher the ball will go before turning back. If you throw it hard enough it will never return, the gravitational attraction will not be able to pull it back down. The velocity the ball must have to escape is known as the escape velocity and for the earth is about 7 miles a second.

As a body is crushed into a smaller and smaller volume, the gravitational attraction increases, and hence the escape velocity gets bigger. Things have to be thrown harder and harder to escape. Eventually a point is reached when even light, which travels at 186 thousand miles a second, is not travelling fast enough to escape. At this point, nothing can get out as nothing can travel faster than light. This is a black hole.

Do they really exist?

It is impossible to see a black hole directly because no light can escape from them; they are black. But there are good reasons to think they exist.

When a large star has burnt all its fuel it explodes into a supernova. The stuff that is left collapses down to an extremely dense object known as a neutron star. We know that these objects exist because several have been found using radio telescopes.

If the neutron star is too large, the gravitational forces overwhelm the pressure gradients and collapse cannot be halted. The neutron star continues to shrink until it finally becomes a black hole. This mass limit is only a couple of solar masses, that is about twice the mass of our sun, and so we should expect at least a few neutron stars to have this mass. (Our sun is not particularly large; in fact it is quite small.)

A supernova occurs in our galaxy once every 300 years, and in neighbouring galaxies about 500 neutron stars have been identified. Therefore we are quite confident that there should also be some black holes.