ScienceIQ.com

What Makes a Candle Burn?

Have you ever wondered how a candle works? If you haven't, think about it for a while. Why does it take so long for the wick to burn down? Why does it need a wick at all? ...

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CandleLight
Astronomy

From Here To There

We all know that our galaxy, the Milky Way, is big -- very big. So big in fact that its size is impossible to grasp. To cope with the astronomical distances of galaxies, since miles or kilometers ... Continue reading

HereToThere
Chemistry

What Is pH?

Anyone who is the least bit familiar with vinegar, nausea, sodium bicarbonate, and ammonia-based cleaning solutions probably has a very good 'feel' for the different natures of acidic and basic ... Continue reading

WhatIspH
Geology

Is the Dead Sea really dead?

The Dead Sea is located on the boundary between Israel and Jordan at a lowest point on earth, at 400 meters (1,320 feet) below sea level. All waters from the region, including the biggest source, the ... Continue reading

IstheDeadSeareallydead
Mathematics

How To Calculate The Area Of A Circle

A circle is the round counterpart of a square. To find the area of a square, one multiplies the length by the width. A circle doesn't have these, however, so there has to be a different way to ... Continue reading

AreaOfACircle

High Altitude

HighAltitudeHave you ever read the directions on a box of cake mix? There are special instructions for high-altitude baking. Has anyone who visited the Rocky Mountains told you how hard it was to breathe there? Have you ever wondered why pilots who fly in high-flying planes wear breathing masks? In higher altitudes, reduced air pressure makes it harder for oxygen to reach the lungs and the brain. Breathing in the mountains causes difficulties as the body adjusts to lower levels of oxygen. In more extreme situations, such as flying an airplane at high elevations, it's more serious. Hypoxia is the name for insufficient oxygen in the body's tissues. It affects the central nervous system and organs. Brain cells need oxygen. And, they begin to die within 5 minutes after the supply has been cut off. When hypoxia lasts longer, it can cause coma, seizures, and even brain death. Mild symptoms of early hypoxia include inattentiveness, poor judgment, memory loss, and decrease in coordination.

Pilots with hypoxia may not be able to recognize dangerous situations or take corrective action. This can lead to aircraft accidents and crashes. The greatest risk for hypoxia takes place in the aircraft's cabin. The cabin is the area with the pilot cockpit and passenger seating areas. Since this is where the people are, the risk of hypoxia is greatest in the cabin. The National Transportation Safety Board and the Federal Aviation Administration keep track of the number of hypoxia and cabin-pressure-related accidents. NASA has developed a device to warn pilots of dangerous conditions before hypoxia becomes a threat. It's about the size of a personal pager, and can send out a beep or a vibrating alert, just like a cell phone. A display window for text messages tells the pilot important information. It can show why the alarm is going off, what altitudes would be safer, and even when the battery needs to be replaced.

The device works by monitoring air pressure. When it detects unsafe levels, it sounds the alarm. It's called the Personal Cabin Pressure Altitude Monitor and Warning System, but is known as PCM 1000 for short. The PCM 1000 is also used on the International Space Station and the Space Shuttle. It quickly notifies crew members of any pressure changes that signal problems on the spacecraft. The cabin pressure alert is used in aviation now, but there are other possible uses for it. Hypoxia is a concern in scuba diving, skydiving, mountain climbing, meteorology, and underwater habitats. To develop the PCM 1000 for commercial use, NASA awarded a patent license to Kelly Manufacturing, of Grenola, Kansas. NASA's Technology Transfer Program encourages private enterprise to take space technology and develop it into products and services for Earth, proving that NASA cares as much about the humans that go into space as those that remain closer to home.