If the rotational speed of the centrifuge used to separate blood is (rev/min 3000) assuming that the blood cells are spherical, calculate the sedimentation rate of the blood cell whose diameter is (20 um) and its density (kg/m3 1125) in a blood test tube. Suppose the cell is at a distance of (5 cm) from the axis of rotation, given that the density of blood (kg/m 1050) and its viscosity (Pa.s 103 × 2.7) 0.304 m/s O 0.0304 m/s O 0.00304 m/s O 0.121 m/s O 0.0121 m/s 0.00121 m/s 0
If the rotational speed of the centrifuge used to separate blood is (rev/min 3000) assuming that the blood cells are spherical, calculate the sedimentation rate of the blood cell whose diameter is (20 um) and its density (kg/m3 1125) in a blood test tube. Suppose the cell is at a distance of (5 cm) from the axis of rotation, given that the density of blood (kg/m 1050) and its viscosity (Pa.s 103 × 2.7) 0.304 m/s O 0.0304 m/s O 0.00304 m/s O 0.121 m/s O 0.0121 m/s 0.00121 m/s 0
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Transcribed Image Text:If the rotational speed of the centrifuge used to separate blood is (rev/min 3000) assuming that the blood
cells are spherical, calculate the sedimentation rate of the blood cell whose diameter is (20 um) and its density (kg/m3
1125) in a blood test tube. Suppose the cell is at a distance of (5 cm) from the axis of rotation, given that the
density of blood (kg/m 1050) and its viscosity (Pa. s 103 x 2.7)
0.304 m/s
0.0304 m/s
0.00304 m/s
O
O 0.121 m/s
O 0.0121 m/s
0.00121 m/s 0
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