The plates move relative to each other in varying speeds. The Pacific plate moves against the North American plate at 5 cm/yr. The Arctic Ridge has the slowest rate at less than 2.5 cm/yr., while the East Pacific Rise has the fastest rate at more than 15 cm/yr.
That depends on how fast the magnet and wire coil are moving relative to each other. Without that no answer can be given.
Really fast is a relative term. But at the equator, relative to the other bodies in the solar system, the earth is moving at a rate a little greater than 1000 miles per hour. Most would consider that really fast.
over millions of years the plates have moved some what fast
Relative for starters means exact or close to. Wind Speed is how fast the air is blowing. It other words, this would mean an estimate or exact measurement to the Wind Speed.
Plate tectonics describes the motions of the 15 to 20 large rigid and brittle tectonicplates into ... It does a good job at explaining the distribution of most of Earth's earthquakes, mountains and other geological features, and a ... The North Americanplate is moving to the west-southwest at about 2.3 cm (~1 inch) per year
4 seconds
The earth's plates move slowly because how big the earthquake is he bigger the amount the plates will move and the slower the earthquake is the less it moves.
The earth's plates move slowly because how big the earthquake is he bigger the amount the plates will move and the slower the earthquake is the less it moves.
plates move around the speed of how fast your nails grow
The earth's plates move slowly because how big the earthquake is he bigger the amount the plates will move and the slower the earthquake is the less it moves.
About 15 cm.
This varies from plate to plate. Some move at about the speed your fingernails grow, some much faster.
I would say that two of the plates were sliding past each other, got stuck, and slipped past each other so fast that it caused pressure rising to the surface, and caused an earthquake.
That depends on how fast the magnet and wire coil are moving relative to each other. Without that no answer can be given.
Capacitance is directly proportional to the area of the plates divided by the distance between the two plates. The farther away the plates are the lower capacitance will be. A capacitor stores energy in the electric field between the two plates. If those plates are very far apart, the field gets crappy real fast.
pretty fast
lithosperic plates move fast why do you think we cant see it happining?