They should - though it will depend on the thickmess of the capillary walls.
A circle with radius 15mm will fit in a 30mm square. Find the intersection of the square's diagonals, that is the center of the circle.
2000 in Roman numerals is MM.
300 mm square = 300 mm * 300 mm = 300*300 square mm = 90000 sq mm or 90000 mm2
First convert the two linear measurementsd from 'mm' to 'm' Hence 2000 mm = 2 m 2200 mm = 2.2 m Then multiply 2m x 2.2 m = 4.4 m^2 Done!!!!
10,000 mm square
Generally the blood pressure at arterial end of the capillaries is about 30 mm of mercury. The blood pressure at the venous end of the capillaries is about 15 mm of mercury. The fluid exit the capillaries at arterial end. Fluid enters the capillaries at venous end.
Lateral area = pi*diameter*length = 2000*pi square mm
Mm m=1000. Mm=2000.
A circle with radius 15mm will fit in a 30mm square. Find the intersection of the square's diagonals, that is the center of the circle.
Fudi
capillaries
2000 in Roman numerals is MM.
300 mm square = 300 mm * 300 mm = 300*300 square mm = 90000 sq mm or 90000 mm2
92903.04 square mm
10,000 mm square
First convert the two linear measurementsd from 'mm' to 'm' Hence 2000 mm = 2 m 2200 mm = 2.2 m Then multiply 2m x 2.2 m = 4.4 m^2 Done!!!!
Do you mean square mm?