Answer:
Part A) distance covered by the aligned red cells is: 180000 Km
Part B) 8000000 bacteria (8 million bacteria)
Step-by-step explanation:
Part A)
Let's first find the total number of red cells that the person has in the 5 liters, knowing that there are 4,500,000 of them in a cubic millimetre:
Since 1 liter contains 1,000,000 cubic millimetres, then, in 5 liters there must be 5 times that number of cubic millimetres. That is a total of 5,000,000 cubic millimetres.
Since in each cubic millimetre there are 4,500,000 red cells, then the number of red cells in the 5 liters must be the product of these two quantities:
4,500,000 x 5,000,000 = 22,500,000,000,000 red blood cells.
Now, to find the distance they will cover aligned one after the other, knowing that their average diameter is 0.008 mm is:
22,500,000,000,000 x 0.008 mm= 180000000000 mm
[tex]22.5\,\,10^{12} * 8\,\,10^{-3}=1.8\,\,10^{11}[/tex] mm
In order to convert this distance into Km as requested, we use the fact that 1 mm = 0.000001 Km, or using exponents in base ten:
1 mm = [tex]10^{-6}\,\,Km[/tex]
Then, the distance covered in kilometers is:
[tex]1.8\,\,10^{11}\,*\,10^{-6} \,\,Km=1.8\,\,10^{5}\,\,Km=180000\,\,Km[/tex]
Part B)
The vaccine contains a total of [tex]10^8[/tex] bacteria per [tex]cm^3[/tex]
In order to find how many bacteria we have in 80 [tex]mm^3[/tex] of the vaccine, we first need to convert 80 [tex]mm^3[/tex] into [tex]cm^3[/tex]:
[tex]80\,\, mm^3 = 0.08 \,\,cm^3[/tex]
Then, if in one [tex]cm^3[/tex] there is [tex]10^8[/tex] bacteria, in [tex]0.08\,\,cm^3[/tex] there would be: [tex]0.08\,*\,10^8[/tex] bacteria. That is: [tex]8\,\,10^6[/tex] bacteria = 8000000 bacteria (eight million bacteria)
