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
practically, separating plasma in the blood is through the use of a centrifuge. it is a fast rotating instrument that causes the settling down of heavier blood subconstituents at the bottom part of the blood sample.
That sounds like density centrifugation...So, a centrifuge?
White blood cells have a distinct forward and side scatter pattern. You can see this by doing flow cytometry on a blood sample. The white blood cells can then be separated by using a FACSorter.
Through a method called filtration.
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
No you do not centrifuge blood for a CBC. This could cause issues when reading the results.
http://www.piercenet.com/files/TR0040-Centrifuge-speed.pdf
Using centrifuge: brill idea
During the centrifuge based on their size/ molecular weight it will be separated.
I believe it is Hertz. Hz can be obtained by dividing rpm by 60.
Centrifuge.
Up to 100 000 rpm, but there should be no limit as the tecnology advances
By using a centrifuge
You spin it in a centrifuge.
You use a centrifuge. This is a machine which spins the sample of blood round. This causes the different substances to separate. Hence, the plasma will separate from the blood cells (which are heavier).
It can separate blood, among other things.