To convert RPM to RCF you need to know the rotational radius of the item that is spinning. Then you can use the following calculation: RCF = 0.00001118 * r * RPM2 (where r = rotational radius in cm) or I have found a neat little calculator that does it for you. http://www.djblabcare.co.uk/djb/info/6/User_Tools Brads
RCF
G-force (acceleration due to gravity) is a measure of the force applied to particles in a centrifuge, while RPM (revolutions per minute) is a measure of how fast the rotor of the centrifuge is spinning. The relationship between g and RPM depends on the rotor size and radius. RPM alone doesn't provide information on the actual force being applied to the particles, which is why g-force is often used as a more reliable measure in centrifugation.
Anyone?
This question is incomprehensible. "ig" might be a typo for "is" "rcf" is either a typo, acronym or jargon for something.
RCF Paris has been crowned French football champions twice.
It stands for Relative Centrifugal Force
To calculate burst RPM (rotations per minute), you need to know the burst speed of the machine in revolutions per second. You can then multiply this value by 60 to convert it to RPM. The formula for calculating burst RPM is: Burst RPM = Burst speed (revolutions per second) * 60.
Measure the rpm & calculate the torque as power divided by angular velocity
The RCF company that manufactures speakers was founded in 1949 by a group of Italian engineers. They started making amplifiers, microphones and products related to music or performing.
It depends on the radius of the centrifuge. a=R x (angular frequency)^2 The units of angular frequency are radians/second, you want rpm If the rpm is 1 rpm the the angular frequency is 2pi *60 radians/sec
You can calculate the rotation speed (rpm) of a wind turbine by dividing the rotational speed of the generator (usually given in revolutions per minute, or rpm) by the gear ratio of the turbine. The gear ratio is the ratio of the number of teeth on the turbine's gear to the number of teeth on the generator's gear. This formula allows you to determine the turbine's rpm based on the generator's rpm and the gear ratio.