I seriously doubt that. the planets would have to be very very close together. The black hole would have to be a super massive one as apposed to a stellar one.
There is no black hole close enough to engulf the entire galaxy, otherwise it would have a while ago.
It depends on where they are located in the solar system (years) and how fast they turn (days).
The distance to the next star other than our own is 4.2 light years away. That's over four years travel time, when travelling as fast as light (186,000 miles per second).
Relative to what? Mercury is the fasted in relation to it's orbit at 48 km/s Jupiter is moving relative to itself at 12.6 km/s The Solar System in relation to the galactic core is revolving at 230 km/s.
A solar system allows a star to exist in a stable condition by taking most of the angular momentum that arose when the star condensed from a random cloud of gas. Without a solar system the average star would spin much too fast and start to fly apart, forming another solar system.
There is a planet not of our solar system that orbits it's sun within four of our days. So a year for that plant is only four days here on earth.
You won't believe how fast the children will devour that cake!
Our Solar System revolves around the Galactic Centre. See related questions.
20,000 mph
100000 mph
because it heat fast then i think so
It takes approximately 230 million years for the solar system to orbit our galaxy at a speed of about 828,000kph (515,000 mph)
It depends on where they are located in the solar system (years) and how fast they turn (days).
It is possible but highly unlikely. A rogue planet that enters the solar system would generally be moving too fast to be captured by the sun's gravity and so would continue out of the solar system unless it is slowed down by a gravitational encounter with one of the planets already here.
The solar system - which includes the sun - is spinning around the center of the Milky Way galaxy. It takes the solar system (or anything else in it's approximate place in the Orion Arm) about 225,000 - 250,000 years to make one complete revolution of the center of the galaxy. I'm afraid I can't break that down into MPH for you though.
The distance to the next star other than our own is 4.2 light years away. That's over four years travel time, when travelling as fast as light (186,000 miles per second).
The strongest sustained winds of any planet in the Solar System; as high as 2100 km per hour.
Relative to what? Mercury is the fasted in relation to it's orbit at 48 km/s Jupiter is moving relative to itself at 12.6 km/s The Solar System in relation to the galactic core is revolving at 230 km/s.