|
| Mr.IITIAN is in the house :-PART 1 |
|
|
|
Guys check this out :-
Radio Waves  | Radio waves have the longest wavelengths in the electromagnetic spectrum. These waves can be longer than a football field or as short as a football. Radio waves do more than just bring music to your radio. They also carry signals for your television and cellular phones. |  |  | The antennae on your television set receive the signal, in the form of electromagnetic waves, that is broadcasted from the television station. It is displayed on your television screen. Cable companies have antennae or dishes which receive waves broadcasted from your local TV stations. The signal is then sent through a cable to your house. Why are car antennae about the same size as TV antennae? | | Cellular phones also use radio waves to transmit information. These waves are much smaller that TV and FM radio waves. Why are antennae on cell phones smaller than antennae on your radio? |  |
How do we "see" using Radio Waves? Objects in space, such as planets and comets, giant clouds of gas and dust, and stars and galaxies, emit light at many different wavelengths. Some of the light they emit has very large wavelengths - sometimes as long as a mile!. These long waves are in the radio region of the electromagnetic spectrum. | Because radio waves are larger than optical waves, radio telescopes work differently than telescopes that we use for visible > light (optical telescopes). Radio telescopes are dishes made out of conducting metal that reflect radio waves to a focus point. Because the wavelengths of radio light are so large, a radio telescope must be physically larger than an optical telescope to be able to make images of comparable clarity. For example, the Parkes radio telescope, which has a dish 64 meters wide, cannot give us any clearer an image than a small backyard telescope! In order to make better and more clear (or higher resolution) radio images, radio astronomers often combine several smaller telescopes, or receiving dishes, into an array. Together, the dishes can act as one large telescope whose size equals the total area occupied by the array. |  | | The Very Large Array (VLA) is one of the world's premier astronomical radio observatories. The VLA consists of 27 antennas arranged in a huge "Y" pattern up to 36 km (22 miles) across -- roughly one and a half times the size of Washington, DC. |  | The VLA, located in New Mexico, is an interferometer; this means that it operates by multiplying the data from each pair of telescopes together to form interference patterns. The structure of those interference patterns, and how they change with time as the earth rotates, reflect the structure of radio sources in the sky.
What do Radio Waves show us?  The above image shows the Carbon Monoxide (CO) gases in our Milky Way galaxy. Many astronomical objects emit radio waves, but that fact wasn't discovered until 1932. Since then, astronomers have developed sophisticated systems that allow them to make pictures from the radio waves emitted by astronomical objects. | Radio telescopes look toward the heavens at planets and comets, giant clouds of gas and dust, and stars and galaxies. By studying the radio waves originating from these sources, astronomers can learn about their composition, structure, and motion. Radio astronomy has the advantage that sunlight, clouds, and rain do not affect observations.
Next shorter wavelength .....still to come.....soon.....!
|
|
About the Author:
|
this article: 137 points
(with 25 
in 31 votes ) [?]
|
|
You have to be logged on to rate
|
|
(posted on 21 Jun 2007 11:27:09 IST)
|
| awesome keep it up |
|
(posted on 21 Jun 2007 12:38:50 IST)
|
| excellent work dude |
|
(posted on 21 Jun 2007 17:08:33 IST)
|
| gud yaaar....... |
|
(posted on 21 Jun 2007 19:15:54 IST)
|
| very informative....thanx....gr8 article.... |
|
(posted on 21 Jun 2007 23:10:45 IST)
|
| gud work man...keep it up |
|
(posted on 22 Jun 2007 07:42:01 IST)
|
great job !!
but i am also wonedring if you cud tell me this :
how do they use spectroscopy to find the element within? ive heard of scientists taking spectroscopic pics of comets and all and then being able to tell all the elaments in that comet!! how? |
|
(posted on 22 Jun 2007 11:48:48 IST)
|
| great job |
|
(posted on 22 Jun 2007 19:24:15 IST)
|
Hey Shreyas....
Spectroscopy is often used in physical and analytical chemistry for the identification of substances through the spectrum emitted from or absorbed by them.Most large telescopes have spectrometers, which are used either to measure the chemical composition and physical properties of astronomical objects or to measure their velocities from the Doppler shift of their spectral lines.For more conceptual (and not technical) information you can read
"Spectroscopy of Astrophysical Plasmas " wriitten by Alexander Dalgarno and David Layzer . Anyways, you may have a liitle idea of spectroscopy in your class 10th. |
|
(posted on 22 Jun 2007 20:08:16 IST)
|
| I like this article.This is absolutely " Rated R" . |
|
|
(posted on 22 Jun 2007 20:09:30 IST)
|
| hey thanks for the info!! ill read up asap.. man u have done a lot of work on this site.. i wont b surprised to c u as an expert soon! |
|
(posted on 23 Jun 2007 01:00:39 IST)
|
| good job! |
|
(posted on 24 Jun 2007 13:05:25 IST)
|
| you have done a great job! |
|
(posted on 28 Jun 2007 14:32:11 IST)
|
| its really great......ken |
|
(posted on 2 Jul 2007 21:20:29 IST)
|
| Good work really ! |
|
|
|
Back to Community Shelf
2 Nickels awarded!![[Post New]](/templates/default/images/icon_minipost_new.gif){kind=icon}
