I get 0.00000000133 meter per second. (rounded)
there are 12400 centimeters in 124 meters.
It will take 50 years to travel 4.5 meters at a speed of 9 centimeters per year. This calculation is done by dividing 4.5 meters by 0.09 meters (which is equivalent to 9 centimeters) to get the time in years.
Not meters, but centimeters. Current plates move at a few centimeters (hundredths of meters) per year. The largest of these movements are not much more than one or two inches.
1 meter = 100 centimeters 1 year = 365 days 1cm/day*1meter / 100 centimeters *365 days/ 1 year = 3.65 meters per year or 1 meter per year = (1/3.65) cm/day
This is usually expressed in meters (for example, 1.40 meters) or in centimeters (for example, 140 centimeters).
No, just a few centimeters.
9.4605284 × 1017 centimeters.
The Pacific Plate moves at an average rate of about 7 to 11 centimeters per year. If we take an average of 9 centimeters per year, over 3 years, the plate would travel approximately 27 centimeters, which is 0.27 meters.
The height of people is usually expressed in meters (e.g., 1.35 meters), or in centimeters (e.g., 135 cm).The height of people is usually expressed in meters (e.g., 1.35 meters), or in centimeters (e.g., 135 cm).The height of people is usually expressed in meters (e.g., 1.35 meters), or in centimeters (e.g., 135 cm).The height of people is usually expressed in meters (e.g., 1.35 meters), or in centimeters (e.g., 135 cm).
There are 100 centimeters in a meter. Thus 100 meters is 10000 centimeters 10000 divided by 5 centimeters per year = Two Thousand Years
Plate motion during an earthquake can range from a few centimeters to several meters per year, depending on the specific fault. However, during the actual seismic event, the plates can move much faster, reaching speeds of several meters per second.
There are 3.2 centimeters in one year.