Passionflower said:
That is not correct, why do you think that is the case? It depends on the approach, some will 'smash' into the black hole, others might orbit, and yet others might be slung back after circumnavigating the lack hole one or more times. We can calculate this based on the so-called impact parameter.
There seems to be a myth that a black hole is something like pulling the plug in a bathtub full of water sucking everything in, but that is not the case.
The black hole encounter scenario being considered is that an 18 billion solar mass black hole is moving directly toward the sun and its center is presently at a distance of 200 times the average radius of Pluto's orbit around the sun. Pluto's average distance from the sun is 5.4E12 meters. Two hundred times pluto's average distance from the sun is 1.08E15 meters.
The Event horizon of the 18 billion solar mass black hole has a radius of 5.32E13 meters. The radius of the event horizon horizon is larger than Pluto's average distance from the sun. Therefore the sun and all of its planets will encounter the event horizon of the black hole.
Plans to move the people and resources of the Earth should have been made and executed many years earlier. The arrival of the enormous black hole should not have been a surprise. At the very least, astronomers should have noticed gravitational lensing effects while the black hole was at a great distance. They should have also noticed large amounts of radiation from the acretion area just outside of the event horizon. But earlier escape plans are left for discussion elsewhere.
Now there is no escape for the sun and planets of the solar system. They can't be accelerated and moved out of the path of the approaching black hole. However, the people of the Earth could build vehicles to propell themselves and some of their intellectual resources away from the black hole. There are two options. one option is to build ships capable of achieving escaape velocity from the black hole. A second option is to build ships capable of achieving a circular orbit around the black hole.
the first option should be the best since it offers the possibility of moving the Earth's people to a planet and physical resources of another distant solar system. The second option is less desireable since the only resources the people would have would be just whatever they could carry on their ships.
The question to be answered for option number two is whether or not a stable orbit can be achieved around the black hole. Is the Earth outside of three times the radius of the Event horizon? Three times the event horizon radius is 1.6E14 meters. That distance subtracted from the black hole's present distance from the sun is 9.2E14 meters. Therefore a stable orbit is still possible if a ship can accelerate to the necessary orbital speed at its present distance from the black hole. That orbital speed is 0.157c or 47000000 meters/second. Accelerating at one g, it would take more than seventy days to reach orbital velocity assuming that the ship starts from zero relative motion with the black hole. Even with a perfectly efficient matter/antimatter propulsion system the amount of mass needed to accelerate the ship to the necessary orbital velocity would be enormous. This option leaves the Earth's people permanently in the vicinity of the black hole and with no more resources than they could carry on their ship. It also leaves them in jeopardy from the radiation from the acretion zone surrounding the event horizon. This is not a satisfactory option.
To build ships capable of reaching escape velocity from the black hole from its present location would require the ability to accelerate the ships to a speed of 0.2217c or about 66500000 meters/second radially outward form the black hole. This would take more than 99 days if the ship could accelerate at a constant rate of one g from a starting zero relative velocity with the black hole. This option requires much more mass for conversion to energy than the option of orbiting the black hole. However, it offers a chance of permanently escaping from the vicinity of the black hole and finding a new home and safely relocating the people of earth.