A centrifuge spins with a frequency of 3.1 x 103 Hz. A particle in a test tube is positioned 5.2 cm from the center of the centrifuge (Hint - ac = 4π2rf2 and rest you have to explain) a) Determine the acceleration of the particle at this position from Earths frame of reference b) Why do you think centrifuges need such a high frequency? c) Why do you think medical research’s want to separate parti
A centrifuge spins with a frequency of 3.1 x 103 Hz. A particle in a test tube is positioned 5.2 cm from the center of the centrifuge (Hint - ac = 4π2rf2 and rest you have to explain) a) Determine the acceleration of the particle at this position from Earths frame of reference b) Why do you think centrifuges need such a high frequency? c) Why do you think medical research’s want to separate parti
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A centrifuge spins with a frequency of 3.1 x 103 Hz. A particle in a test tube is positioned
5.2 cm from the center of the centrifuge (Hint - ac = 4π2rf2 and rest you have to explain)
a) Determine the acceleration of the particle at this position from Earths frame of reference
b) Why do you think centrifuges need such a high frequency?
c) Why do you think medical research’s want to separate particles at all?
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