Editing 1161: Hand Sanitizer
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==Explanation== | ==Explanation== | ||
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The number of germs that would be left after using the hand sanitizer is 200 million times 0.01%. 0.01% is equivalent to 0.0001 in decimal, so the multiplication is 200 000 000 × 0.0001. That is 20 thousand germs, which is still a surprisingly large number of germs. Recently, scientists [http://www.dailymail.co.uk/sciencetech/article-2257098/Larry-projectile-vomiting-robot-helping-British-team-learn-stop-spread-norovirus.html have shown] that it only takes 20 virus particles to infect someone (with analyzed virus; not all germs are equally effective). However, they have also previously noted that the effectiveness of hand sanitizer is actually higher than 99.99%, but it's a bit awkward to print a more precise decimal in an advertising slogan. (Several brands actually kill near 100%, but don't want to risk going to court for false advertising because a few germs got past.) | The number of germs that would be left after using the hand sanitizer is 200 million times 0.01%. 0.01% is equivalent to 0.0001 in decimal, so the multiplication is 200 000 000 × 0.0001. That is 20 thousand germs, which is still a surprisingly large number of germs. Recently, scientists [http://www.dailymail.co.uk/sciencetech/article-2257098/Larry-projectile-vomiting-robot-helping-British-team-learn-stop-spread-norovirus.html have shown] that it only takes 20 virus particles to infect someone (with analyzed virus; not all germs are equally effective). However, they have also previously noted that the effectiveness of hand sanitizer is actually higher than 99.99%, but it's a bit awkward to print a more precise decimal in an advertising slogan. (Several brands actually kill near 100%, but don't want to risk going to court for false advertising because a few germs got past.) | ||