1 mile per hour equals 44.7 centimeters per second.
dyne-sec. stands for the unit
Since a centimeter is 100th of a meter, it would be traveling at .09 meters per second. 100th of a second, 100th of a meter, the relationship is 1. meters per second.
(1 centimeter/microsecond) x (1 inch/2.54 cm) x (1 million microsecond / second) = 393,701 inch/second Multiply ( centimeters/microsecond ) by 393,701 to get ( inches/second ).
To convert from picosiemes to microsiemens, you have to divide by a million. To convert from "per meter" to "per centimeter", you would multiply by a million. The end result is that you divide by 10,000.
.10 meters per a second equals 10 meters per a second
1 mile per hour equals 44.7 centimeters per second.
The units for acceleration in the MKS (meter-kilogram-second) system are meters per second squared (m/s^2). In the CGS (centimeter-gram-second) system, the units for acceleration are centimeters per second squared (cm/s^2).
dyne-sec. stands for the unit
The MKS (meter-kilogram-second) unit of momentum is kilogram meter per second (kg m/s), while the CGS (centimeter-gram-second) unit of momentum is gram centimeter per second (g cm/s).
That's the magnitude of an acceleration. It's roughly 1/980th the acceleration of gravityat the earth's surface.
The CGS unit of velocity is centimeter per second (cm/s).
Since a centimeter is 100th of a meter, it would be traveling at .09 meters per second. 100th of a second, 100th of a meter, the relationship is 1. meters per second.
(1 centimeter/microsecond) x (1 inch/2.54 cm) x (1 million microsecond / second) = 393,701 inch/second Multiply ( centimeters/microsecond ) by 393,701 to get ( inches/second ).
There are 10mm per centimeter.
(0.32 centimeter) x (10 millimeters per centimeter) = 3.2 millimeters(0.32 centimeter) / (100 centimeters per meter) = 0.0032 meter(0.32 centimeter) / (2.54 centimeters per inch) = 0.126 inch (rounded)
Density can be measured in grams per cubic centimeter or grams per milliliter because both units represent the same volume of a substance. Since 1 milliliter is equivalent to 1 cubic centimeter, the density of a substance will be the same whether measured in grams per cubic centimeter or grams per milliliter.