Asteroid And Comet Impact Hazard example essay topic

Near Earth Objects What are NEOs? Where do they come from? Do they pose any real threat to Earth? Can they provide viable space resources? All of these questions are now under investigation by planetary scientist. There are two highly recognized research programs that I will discuss with you.

The Spaceguard program is sponsored and run by NASA Ames Space Science Division: Asteroid and Comet Impact Hazard. Also under the direction of Dr. Tom Gehrels the University of Arizona has the Spacewatch program. NEOs can be either asteroid or comets. Ninety percent of the information that I came across discussed asteroids. Therefore, I will concentrate on asteroids alone. I'm not fully knowledgeable on the subject butI did learn a great deal.

What are NEOs? The 'Webster's New World Dictionary's tates, 'Any of the small planets between Mars and Jupiter'. The 'Funk and Wagnalls Encyclopedia from Infopedia's tates, 'One of the many small or minor planets that are members of the solar system and that move in elliptical orbits primarily between the orbits of Mars and Jupiter'. Where dot they come from? The NEOs are small objects ( 7 miles) with a range of compositions spanning all common asteroid types.

They are derived from mixture of main-belt collisional fragments and burned-out short-period comets. According to Dr. Tom Gehrels of the University of Arizona Spacewatch program,' The total number of NEOs over 100 meters is estimated to be about 100,000, with 150 or so currently known'. The Earth orbits the Sun in sort of a cosmic shooting gallery, subject to impacts from asteroids. It is only fairly recent that we have come to appreciate that these impacts by asteroids pose a significant hazard to life and property. Although the annual probability of the Earth being struck by a large asteroid is extremely small, the consequences of such a collision are so devastating that it is prudent to assess the nature of the threat and prepare to deal with it. Studies have shown that the risk from a cosmic impact increases with the size of the projectile.

The greatest risk is associated with objects large enough to perturb the Earth's climate on a global scale by injecting large quantities of dust into the stratosphere. Such an event could depress temperatures around the globe, leading to massive loss of food crops and possible breakdown of society. Global catastrophes are qualitatively different from other more common hazards that we face (except nuclear war), because of their potential effect on the entire planet and its population. Various studies have suggested that the minimum mass impacting body to produce such global consequences is several ten of billions of tons, resulting in a ground burst explosion with energy in the vicinity if a million megatons of TNT.

The diameter for Earth-crossing asteroids are between 1 3/5 and 3 1/4 miles. Smaller objects (down to 32 feet in diameter) can cause severe local damage but pose no global threat. According to Spaceguard, 'Of approximately 200 Earth-crossing asteroids, fewer that 200 have actually been discovered. At present no asteroid is know nto be on a collision course with the Earth. David Morrison of the NASASpaceguard Research Center states, 'The chances of a collision within the next century with an object 1 3/5 mile in diameter or more are very small (less than 1 in a 100). But, such a collision is possible and could happen at any time.

If we did have sufficient warning, however, the incoming object could be deflected or destroyed'. Cosmic impacts are the only known natural disaster that could be avoided entirely by the appropriate application of space technology. The Spacewatch telescope located on Kitt Peak is used to survey for moving objects, including asteroids whose orbits approach or cross the orbit ofthe Earth. Among these are asteroids that may someday be used as sources of raw materials. Spacewatch uses a Charge-Coupled Device or (CCD) and an automated computer program to discover NEOs. 'The Spacewatch Observatory has already detected one of the smallest asteroids known, and also the one that passed very close to Earth, the Apollo asteroid 1991 BA.

The semi-automatic Spacewatch system at the University of Arizona has considerably increased the discovery rate, and will have profound consequences on the utility of NEOs as near-Earth space resources.