ScienceIQ.com

Stopping In Thin Air

Imagine you're going very fast -- much faster than a race car. In fact, imagine you're going 100 or 200 times faster than a race car. When you reach your destination, you need to stop relatively quickly. How would you do it? It wouldn't take a rocket scientist to think of using the brakes. But, it might take a rocket scientist to skip the brakes, ...

Continue reading...

StoppingInThinAir
Biology

Did You Smell Something?

There's not a moment of our lives when smells -- or, more precisely, odor molecules -- aren't impacting our brain. It's been estimated that it takes at least 40 molecules of a given odor for us to be ... Continue reading

Smell
Biology

How Biological Clocks Work

Anyone who has traveled has experienced jet lag—that groggy realization that while your day is beginning in Washington, DC, the night you just left in San Francisco is hardly over. Jet lag is an ... Continue reading

HowBiologicalClocksWork
Biology

Word Power of the Very Young

Before they turn 2, most children have a vocabulary of about 50 words. From 1st to 5th grades, according to some estimates, their vocabulary increases by about 30,000 words. That's 20 words a day! How ... Continue reading

WordPowerChildren
Physics

Why Does A Golf Ball Have Dimples?

A golf ball can be driven great distances down the fairway. How is this possible? The answer to this question can be found by looking at the aerodynamic drag on a sphere without dimples (while it's ... Continue reading

GolfBallDimples

Who was Typhoid Mary?

WhowasTyphoidMaryMary Mallon lived in New York about 100 years ago, and worked as a cook. It seemed that every family she worked for suffered an outbreak of typhoid fever! The Dept. of Public Health found that she harbored the bacteria salmonella typhi, which causes typhoid fever. Even though there were no antibiotics in those days, doctors did know how to culture bacteria from samples of blood, saliva, or feces. Mary was not an educated person, and couldn't believe she was really making people sick, so she refused to give up being a cook. Finally she was more or less imprisoned in a hospital for the rest of her life.

How could it happen that Mary Mallon was contagious for typhoid fever but not sick? Scientists agree that after recovering from an attack of typhoid fever, a few people harbor the salmonella as a film on their gallstones, hidden from the action of their immune system. Such people get well because their immune systems kill the salmonella that try to escape to other parts of their bodies. (People who have recovered from typhoid are immune afterward.) However the bacteria can still be spread to other people and make them sick.

It isn't clear whether everyone who suffers from gallstones can become a 'Typhoid Mary', or if there also needs to be something special about the strain of salmonella typhi that infects them.