ScienceIQ.com

Resistance is NOT Futile!

Maybe if you are a Star Trek heroine up against the Borg, 'resistance is futile.' But if you are a germ that makes people sick, resistance - to antibiotics - is not futile at all. ...

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ResistanceisNOTFutile
Biology

There's A Lot More To Vision Than Meets The Eye

Have you ever heard of Anton's Syndrome? It's a bizarre medical disorder involving a dramatic mismatch between sensory input and conscious awareness. Why is the syndrome bizarre? Not because the ... Continue reading

VisionMeetsTheEye
Biology

What are Bacillariophyta?

Bacillariophyta are diatoms. All diatoms are single-celled organisms. They are microscopic, glassy organisms that photosynthesize for food, like plants. Diatoms live in the sediments of freshwater, ... Continue reading

WhatareBacillariophyta
Astronomy

Sputnik and The Dawn of the Space Age

History changed on October 4, 1957, when the Soviet Union successfully launched Sputnik I. The world's first artificial satellite was about the size of a basketball, weighed only 183 pounds, and took ... Continue reading

Sputnik
Engineering

Drip, Drip Water Clocks

Water clocks were among the earliest timekeepers that didn't depend on the observation of celestial bodies. One of the oldest was found in the tomb of the Egyptian pharaoh Amenhotep I, buried around ... Continue reading

DripDripWaterClocks

Exercising In Space

ExercisingInSpaceWhat did astronaut Shannon Lucid like least about her six months on Space Station Mir? The daily exercise. 'It was just downright hard,' she wrote in Scientific American (May 1998). 'I had to put on a harness and then connect it with bungee cords to a treadmill.' The harness and cords kept her feet on the treadmill. They also provided resistance for her muscles to work against. As Shannon learned, ordinary Earth-style exercises are useless in space. Lifting weights is impossible. A barbell floats like a feather. Crunches are easy but worthless, because the muscles of the abdomen have no upper body weight to lift. Walking and running require little effort, so they can't build muscle strength or maintain the health of heart and blood vessels.

Space travelers experience many other changes in their bodies. One of the first and most noticeable is shrinking of the legs and swelling of the face, as fluids--freed from gravity's pull--redistribute more evenly throughout the body tissues. Each leg loses about a liter of water in the first day, and the legs remain smaller throughout the space flight. The collection of fluid in the head produces a perpetual case of 'space sniffles' that abates only during strenuous exercise. The redistribution of fluid has effects that are more serious, one of which is a form of anemia unique to space travelers. The loss of fluid from the bloodstream to the tissues creates an overabundance of red blood cells. In response, the body produces fewer and destroys more. Astronauts feel the loss when they return to Earth and must work against gravity again.

Exercise is essential to the health and well-being of women and men working in space. Research has shown that astronauts lose bone and muscle mass during their flights. The loss of bone raises calcium levels in the blood, which may lead to kidney stones. NASA planners think resistance exercise using elastic bands should reduce such effects, but whether they can be prevented entirely is unknown. Our experience so far in space shows that all body systems except the skeletal and muscular return to normal after astronauts return to Earth. So far, evidence suggests that human beings can live and work safely in space for long periods, but so far 'long' had meant 'months.' How might humans cope with trips to the other planets that require several years? No one knows.