58,117 m / s or 130,000 miles per hour. :)
The dying comet fragments that continued to batter Jupiter travel at speeds of about 58,117 miles per hour. These high speeds result in powerful impacts that release large amounts of energy upon collision with the planet's atmosphere or surface, causing significant damage. Jupiter's strong gravitational pull attracts these fragments, leading to frequent collisions.
The dying comet fragments that continued to batter Jupiter travel at speeds of about 37 miles per second (60 kilometers per second). These high speeds result in powerful impacts that can leave scars on the planet's surface.
Dying comet fragments that battered Jupiter travel at speeds of up to 134,200 miles per hour (216,000 kilometers per hour) before crashing into the planet's atmosphere and disintegrating in fiery explosions. These impacts can generate huge fireballs and dark scars in Jupiter's clouds, such as the famous Shoemaker-Levy 9 impacts in 1994.
It would take about 9 years to travel from Earth to Jupiter, assuming a similar speed and trajectory as the trip from Earth to Mars. Jupiter is much farther away from Earth than Mars, so the journey would be significantly longer.
Jupiter is about 40 to 52 light minutes away from Earth, depending on their positions in their respective orbits around the Sun. This means that it takes light approximately 40 to 52 minutes to travel from Jupiter to Earth.
Comet fragments that continue to collide with Jupiter typically travel at speeds ranging from 58 to 117 kilometers per second. These high speeds result from the gravitational interactions of the comet fragments with Jupiter's immense mass, causing them to accelerate significantly as they approach the planet.
The dying comet fragments that continued to batter Jupiter travel at speeds of about 58,117 miles per hour. These high speeds result in powerful impacts that release large amounts of energy upon collision with the planet's atmosphere or surface, causing significant damage. Jupiter's strong gravitational pull attracts these fragments, leading to frequent collisions.
The dying comet fragments that continued to batter Jupiter travel at speeds of about 37 miles per second (60 kilometers per second). These high speeds result in powerful impacts that can leave scars on the planet's surface.
Dying comet fragments that battered Jupiter travel at speeds of up to 134,200 miles per hour (216,000 kilometers per hour) before crashing into the planet's atmosphere and disintegrating in fiery explosions. These impacts can generate huge fireballs and dark scars in Jupiter's clouds, such as the famous Shoemaker-Levy 9 impacts in 1994.
Tiny fragments can travel all the way around the earth from a 1-pound explosion.
what can you infer about how and what thease meterorite fragments are made up of that can travel through space
they travel how far they want to
One can determine the size of DNA fragments from electrophoresis by comparing the distance the fragments have traveled in the gel to a standard marker with known fragment sizes. The smaller fragments will travel farther while larger fragments will travel a shorter distance. This allows for estimation of the size of the DNA fragments based on their migration pattern.
Fragments from a 1-pound explosion can potentially travel up to hundreds of feet, depending on factors such as the type of explosive used, the environment, and the presence of barriers. The size and weight of the fragments will also affect how far they can travel.
Shorter restriction fragments travel farther in gel electrophoresis because they can move through the gel more easily due to their smaller size. Longer fragments experience more resistance and tend to travel a shorter distance through the gel.
The smaller DNA fragments travel faster and farther during electrophoresis compared to larger fragments. This is because smaller fragments experience less resistance from the gel matrix and are able to move more quickly through the electric field.
It is not possible to travel to Jupiter by car due to the vast distance and the fact that Jupiter is a gas giant planet with no solid surface to land on.