Establishing the Maximum Speed of a CD-ROM Drive 495
UnknownSoldier writes "Ever wondered how fast CD-ROM drives can spin their CDs before the CD will self destruct due to centrifugal force? This person was too, and has his results. (So much for those 100x drives)."
Who would want one? (Score:2, Insightful)
Re:Who would want one? (Score:4, Informative)
Future drives will have to take advantage of technologies like TrueX [cdrinfo.com] to be tolerable.
Then again, how fast do I really need my CD-ROM to be? I mean, I only use my CD-ROM to 1) reinstall the system and 2) to play music. A 32x CD-ROM is plenty fast to accomplish both of these tasks.
The point of this experiment wasn't to push technology but to do something silly to wow your geek friends. (Then again, I didn't read the link since it was Slashdotted after a measely 6 posts).
Re:Who would want one? (Score:2)
Re:Who would want one? (Score:2, Funny)
I only use my CD-ROM reader to play MP3 CD-R. Where can I get a 0.1x drive?
Re:Who would want one? deaf people? :) (Score:2)
Conversely, I have a 50x Acer that is almost silent -- it's not as loud as the case fans (which aren't too bad in that machine).
I'd made a guess a while back that 50x was probably nearing the practical limit for a CDROM drive of current technology, and seems I wasn't too far off.
Broadband costs $200,000; CD-ROM drive for games (Score:3, Insightful)
Broadband is nice.
Broadband is nice but expensive. What would you rather pay, $60 for a CD-ROM drive plus an install set, or $200,000 for a house in an area served by broadband [pineight.com]?
I rarely use my CD-ROM to install software, since 'apt-get' directly off HTTP is almost as fast
"Rarely" meaning "only for games," right? Most PC games are non-free because artists, musicians, and level designers have a tougher time accepting the free software or open source philosophy than coders do. Because they sell their product at retail, they have 700 MB (capacity of a CD) to work in rather than 20 MB (the maximum attention span of a user behind 56K). (The fact that PC games are available primarily for Windows is beside my point, partly because Wine can run the vast majority of 2D Windows games.)
Re:Who would want one? (Score:5, Interesting)
The biggest problem with these sort of drives is seek time. A modern drive can read the whole CD in under 2 minutes, but it will take a good fraction of a second to jump from one part of a drive to another. This doesn't improve alot no matter how fast you spin the CD.
A far better solution would be to build a CD with a 640 MB Cache, and have it just read the whole thing into RAM.
Given the price of RAM over the next few years, this sort of technology should available soon.
Alternatively, it could be written into the OS itself. The only problem with this could be with some copy protection systems perhaps.
Michael
Re:Who would want one? (Score:5, Insightful)
The slow seek time doesn't bother me nearly as much as the eternity it takes from the time you insert the CD in the drive until the time it is ready to send data. In fact, I'd probably be happy with an 8X drive if it had a < 1 second delay between hitting the close button and viewing the README file.
Re:Who would want one? (Score:2, Informative)
CD-ROM file fragmentation (Score:3, Funny)
...although there is fragmentation of CD-ROMs as they are spun faster and faster...
Re:Who would want one? (Score:2, Insightful)
Re:Who would want one? (Score:3, Interesting)
This is actually what happens with Linux; it's called the buffer cache and page cache. One's (disk-)block oriented and the other's (memory-)page oriented. They work (well) with other media, too. I'll stay scarce on the details since a) I don't know them and b) it's probably changing in 2.5
Lots of SCSI disks, controllers, and (yes) cdroms have their own ram cache. Just not 640MB worth.
Re:Who would want one? (Score:4, Interesting)
Basically, you hold the CD still in a little bracket, and spin a tiny little curved mirror around at the center. Since the laser will bounce erratically off the surface of the CD, you would read from the disk by placing a thin glass or plastic cover over the CD with a few photosensors sensors around its edge. The returning laser (carrying the data) could strike the cover at any pount, and the internal reflection of the cover would get enough of it to the photosensors to read the data. The laser will zip all over the place, so you'd use timing to ignore the data from non-contiguous parts of the disk. The mirror could be as small as the diameter of the laser, so you could spin it much, much faster than the CD iself could withstand.
The only problem I counld think of for such a device is that I don't think normal optical media will work as expected if you read it at a low angle.
Clearly, since no one seems to have done it, it's not that great of an idea. There's probably something wrong with it that I didn't think about at the time. Oh well - I was 12, and I just wanted to listen to Paul Simon without having to worry about bumping the desk while I was doing my cursed multiplication tables.
Re:Who would want one? (Score:2)
cd glue (Score:4, Funny)
Google cache (Score:5, Informative)
Re:Google cache (Score:5, Funny)
If you want to go even faster (Score:5, Funny)
Re:If you want to go even faster (Score:3, Interesting)
Re:If you want to go even faster (Score:2)
Also, the counterbalance would have to move in/out at the same rate as the laser head, or it would get unbalanced.
Re:If you want to go even faster (Score:2)
Re:If you want to go even faster (Score:4, Insightful)
Personally I think this is all rather silly given how little RAM cost now. It would seem more sensible to stick 700MB of consumer DRAM in the drive and cache to it if you need the speed that badly. Cacheing time of 2-3 mins maximum and then many thousand times the original speed with lower power requirements, wear and tear on the disc and drive and noise and vibration levels.
absurd (Score:2)
never mind. that's retarded.
You can make them faster... (Score:3, Insightful)
Re:You can make them faster... (Score:4, Funny)
--
Re:You can make them faster... (Score:4, Informative)
Re:You can make them faster... (Score:2)
Re:You can make them faster... (Score:2)
What about external support? (Score:5, Insightful)
Anyway, I think you can make cd drives that spin 4000x if you want, because it might be possible to put the cd in braces to hold it together, and/or to rotate the laser instead. Or how about using multiple lasers?
It's just like silicon transistors: There's always somebody saying there is a final physical limit we'll reach within the five years...
Often, we(they)'ll find a way around the limitation.
Re:What about external support? (Score:2)
Re:What about external support? (Score:3, Informative)
are scratch-resistant CD's. or CD's you can pull the outer layer off of to reveal a new shiny surface. I treat my burnt cd's like shite, so its my own fault.. but still.
what isn't my fault is old cd's who's upper reflective layer begins to flake off.. cheap sons of bitches made in 1997 just arent sufficent. I lost my entire backup of por..err, my 600mb hard disk.
Re:What about external support? (Score:2)
Re:What about external support? (Score:2)
Re:What about external support? (Score:2)
I used to have fun troubleshooting plastic extrusion machines with exotic plastics using up to 8" barrels on the night shift. Some of the plastics had such a high lead content, they to be refrigerated before use or else they would cure at room temperature.
Re:What about external support? (Score:2)
Depends on the age of the CD (Score:5, Interesting)
Contrary to popular belief, plastic doesn't last forever.
And since CD is made up of two layers of clear plastic, sandwitching a thin wafer of metal media inside, the more the CD is aged, the weaker the plastics of the CD become.
And so, the maximum spinning speed for a CD depends on how old the CD is.
I do have some pretty old CDs from the early 80's, and I will NOT put them in my 52X CDROM drive. Unless of course, I want to scrap bits and pieces out of my machine.
Re:Depends on the age of the CD (Score:3, Informative)
You probably already know this, but just for the record -- unless you have a defective CD drive, it shouldn't ever try to spin an audio disc up to full speed unless you're doing digital audio extraction. If you're merely listening to your CD, it will spin at 1X, just like any standard CD audio player.
My experience (Score:3, Insightful)
You said:
"You probably already know this, but just for the record -- unless you have a defective CD
drive, it shouldn't ever try to spin an audio disc up to full speed unless you're doing digital
audio extraction. If you're merely listening to your CD, it will spin at 1X, just like any
standard CD audio player."
My experience with my CDROM and CDRW drive (Samsung 52X CDROM drive and Sony 16X/10X/40X CDRW drive) is that whenever I put a disk into it, during the SEARCH, the drives will SPIN VERY FAST - I can even hear the whrrrrrlllll sound ! - then it'll slow down, if the drive finds out that the disk is an Audio CD.
What matters is that my OLD audio CDs may NOT even survive the FAST spin during the SEARCH routine.
Re:Depends on the age of the CD (Score:2)
Thats true CD's might be no permanent storage medium. However lifetime of a well handed CD is still unknown as the CD's out of the 70'ies still work fine. Maybe it are mere hundred years, maybe just 50 or forever. Who knows? My grandchilds will
Why even spin the disk at all? (Score:5, Interesting)
Instead of spinning the disk, just have one laser suspended above the CD with a splitter that alters the direction of the beam, like maybe similar in concept to a cathode ray beam. Have the "read" sensor at the focal point of a parabolic mirror covering the top of the cdrom case and fire the laser at whatever angle it takes to hit position X. The beam will bounce off the pit and either scatter or reflect back up into the mirror striking the focal point, with seek times limited only by the speed of light! Forget 100X, if you did it this way you'd be looking at 100,000,000x speeds from CDs that don't even move an inch!
Re:Why even spin the disk at all? (Score:3, Interesting)
Even so, I doubt a parabolic mirror would work. It seems like it would diffuse the laser light too much.
Re:Why even spin the disk at all? (Score:5, Funny)
Re:Why even spin the disk at all? (Score:2)
Maybe you should look closer to the CD, I do see them. There is a difference between a burned CDR and a blank one. You can also tell how much space is left on the CDR by looking at it. However yes I deny to be able to read the data with blank eye
Even more reasons it would be too expensive (Score:2)
This device would also be MORE vulnerable to physical shock then current designs due to the difficulty of aiming at that range. Current designs put the lens of the laser within a few mm of the surface, but with a big mirror it'd be more like 10-20cm. It isn't important that the accuracy of the aiming be high, but the precision does need to be so that no tracks are skipped.
This device would be useful for recovery of data from damaged disks, but not for everyday use.
Re:Why even spin the disk at all? (Score:4, Insightful)
Figure out how to redirect a beam of light in a couple nanoseconds, and I guarantee you'll win a Nobel prize.
Re:Why even spin the disk at all? (Score:2)
Re:Why even spin the disk at all? (Score:4, Informative)
We modulate a laser beam on the order of 14 million times a second, actually a lot more than that. Check out www.cymbolic.com [cymbolic.com] (LightJet / PlateJet products).
MadCow.
Re:Why even spin the disk at all? (Score:3, Informative)
Lithium Niobate Modulaters go at 20 Ghz ( I have one sitting in front of me in a box).
http://www.eospace.com/
Hell they even have a 40 Gb/s, but it isn't that good.
Anyway if you want to redirect the light beam you can use a lithium niobate polarization controller and have polarization dependent componets at the output that only let certain states of light through (and attenuate the rest) and thus you are redirecting the beam down a different waveguide in the ps range.
I am sure there are easier ways. But it is saturday morning....
Re:Why even spin the disk at all? (Score:5, Insightful)
Thats how you learn how CD`s work in school, but it isn't true. In past it was the classical approach of not telling the whole truth to keep others from copying it.
First the beam is not scattered or reflected, it is _always_ reflected. The CD consits of two layers, the back one is solid and 100% reflective. The distance between the two layers has to be exactly lambda / 4 of the lasers wave length. Now the first layer is semitransparent. Meaning 50% of the light gets through 50% gets reflected. In the first layer you have the pits representing the data. If this layer has a pit 100% of the light gets reflected, but if it hasn't only 50% get through, get reflected at the back layer and then has a destructive interference with the light reflect first. (That's why the distance has to be wavelength/4)
I fear that the interference will not work if the light is not angeled with 90 degree on the disk.
How about using 700 Million lasers, not spinning at all? You could read a CD at once
Re:Why even spin the disk at all? (Score:2)
Re:Why even spin the disk at all? (Score:2)
Where do I sign up? (Score:2)
It's too bad the site is /.'ed, because I wanted to see if this lab had any job openings ...
Another idea for making CD's faster... (Score:3, Insightful)
Right now what they use is On-Reflective Off-Non Reflective. If the laser was able to detect that some of the bits were at 50% reflectivity, then you'd have 2 bits of data for every bit of reflectivity on the surface.
If one were to get fancier, they could use multi-colored bits. Using 2 lasers instead of one, then one laser would read a different value than the other depending on how the surface reacted to the light. They may already be doing that today with DVD's, I'm not really sure. It's been a while since I read up on it.
I guess the real point to what I'm saying is that increasing the density of the data and the spin of the disk aren't the only two options.
Re:Another idea for making CD's faster... (Score:3, Informative)
Re:Another idea for making CD's faster... (Score:2)
I think they sped up the CD's waaaay too much, though. Imagine if the disk flew apart inside your computer? It'd take out the CD-ROM. Fortunately, it's isolated. Although if that happened in my GameCube I'd be upset.
At this point I say: make better use of the bits on the CD.
Re:Another idea for making CD's faster... (Score:2)
And the Fun Family Slashdot Game... Guess the next type of device crippling!! CSS^2
Re:Another idea for making CD's faster... (Score:2)
I desribed it very roughly here [slashdot.org]
It was on a school guide through the CD factory of sony, the guidance first explained the "popular" explanation how CD's work (with reflecting and scattering) and then said, "You're all technicans, right? Okay than I can explain how they _really_ work" (destructive interference of the laser)
Re:Another idea for making CD's faster... (Score:2)
Lol. Thanks man, glad to know that it's been done. Now we need drives with more than one laser.
Another Mirror (Score:5, Informative)
This one has no broken images [137.28.5.50].
Re:Another Mirror (Score:2, Informative)
The answer is not to spin them faster (Score:2)
The motor power required, some 300 watts, would impose a rather heavy loading on the computer's power supply, though.
I don't think I'd be comfortable with something spinning that quickly in my machine. If I tapped it accidentally, would it rip through the plastic and come flying out of my computer? Perhaps maiming bystanders? Hmmm...
The answer is not to spin the disks faster, but rather to read more of the disk in one shot. But that would increase the cost incrementally with each reading device added.
Generally, people use CDs as a one-shot deal, install to hard disk once and then never use the CD again. Though people would like to read from their CDs faster they don't want to pay 4-10 times as much for a CD Player with the mechanics to read multiple sectors at once.
Sweat
Re:The answer is not to spin them faster (Score:2, Interesting)
Centrifugal Force (Score:2, Funny)
Is this idea possible... (Score:2, Interesting)
The way I understand it, a burst of energy (Proton?) is fired from a gun and electro-magentically guided to hit a phosphor on the screen, causing it to light up. The electro-magentic fields are timed to cause the energy to scan across the screen so fast your brain can't see the flicker.
Imagine if somebody invented a card that worked like that. It'd look like a credit card with a grid like surface on it. You side it in to a reader, and it uses a similar technique to set bits on the surface of the card. Then another beam is used to read data back off of it.
If this is possible, the advantage to it is that there are no moving parts, so it could easily last for years. If it's a read only medium like CD, then it is *not* succeptable to scratches or wear and tear.
Whatcha think, sirs?
Re:Is this idea possible... (Score:2)
Re:Is this idea possible... (Score:2)
You mean holographic memory? I remember that too... Curious what they could do with it today. A hologram holds a TON of data. A 2-d plane holds a number of images, just depends on the angle you're looking at it with.
If we're talking about the same thing, that's not exactly waht I'm talking about. (Although it is very interesting!) I was just thinking there's a way do that on a flat card with no moving parts.
I need to develop the idea more, though. Somebody in an earlier post illustrated some problems with it. Heh.
If the disc exploded at 57x... (Score:2)
Re:If the disc exploded at 57x... (Score:2, Informative)
It's simple. They spin them more slowly than that and then lie about the specs.
Re:If the disc exploded at 57x... (Score:3, Funny)
Re:If the disc exploded at 57x... (Score:2)
If your selling technoilogy, you best bother learning the fundimentals of what your selling. I would by a car form somebody who would count the trunk as a 'door' why should I tolerate less from a guy selling technology?
Do they really need to be that fast? (Score:4, Interesting)
It seems at the higher CD speed it takes too long spin the thing up to reading speed anyhow. If it did not need to spin so fast, then it may be able to get smaller chunks of information sooner.
Most don't seem to be able to read until full speed is reached. Why can't they read during the spin-up time also? Too hard to calculate?
Is there a way to set the speed of CD readers slower if one wants this? I have not seen any setting options, but each vendor may be different.
DYI cdrom experiment (Score:2)
Was it really 30,000 rpm? I don't know, but I had the 30,000rpm dremel "overclocked" on an inverter at a much higher voltage and frequency. The speed was indeed higher than off 120VAC 60Hz current. Those cheap 300 watt inverters you can get at Walmart can be tweaked with a potentiometer and capacitor on its oscillator circuit. The circuit board layout is very modular and can be quickly seen for modifications. Maximum voltage is around 180 and frequency is around 400Hz before the slew rate overheats the transistors.
Perhaps I will try again to the point of destructon tonight.
Re:DYI cdrom experiment (Score:4, Funny)
Re:DYI cdrom experiment (Score:2)
With any luck, I'll have an explosion before the night is over. Its all a matter of how many watts I dare to put into this little electric motor.
Most Drives ovev 32x use multiple lasers (Score:3, Informative)
Bla bla bla (Score:5, Informative)
This is the future (but who cares, we'll go solid state before it gets popular).
Excuse me while I nitpick (Score:2, Interesting)
Comment: None of the discs reached more than 180 m/s, but on the other hand that's about 650 km/h, the cruising speed of a jet airliner.
The cruising speed of jet airliners is 800 km/h to 900 km/h, business jets being a bit faster. Today's fast turboprops reach 500 km/h.
Black Hole (Score:3, Funny)
There's no such thing as centrifugal force. (Score:3, Informative)
Sorry to be a physics geek here, but there's no such thing as "centrifugal" force, unless you're talking about the force caused by a centrifuge dropped from a height.
There IS "centripetal" force, that refers to the force on an object travelling in a circle, which pushes outward from the axis of said circle on an object while it's travelling about the radius. Say you're spinning a ball on a string around over your head. Your work is translated into acceleration around the axis of the circle as the ball spins around your head, but the force is perpendicular to the path of the ball at any one moment, radiating from the axis. This is proven visually by noting that as you put in more work, spinning the ball faster, the angle from vertical of the string the ball's attached to increases toward 90 degrees. See? Force pushing outward, ball moving in circle. When the string is released though (or the CD breaks up) the ball moves in a straight line matching that along which it was travelling at the moment of release -- momentum then is in action.
To repeat, no centrifugal force. For all our computer learnin', it's surprising that so few paid attention in physics 101.
Re:There's no such thing as centrifugal force. (Score:5, Insightful)
There IS "centripetal" force, that refers to the force on an object travelling in a circle, which pushes outward from the axis of said circle on an object while it's travelling about the radius.
centripetal force is a force acting toward the centre. in the stone on a string example, it is the force (tension in the string) pulling the stone toward the holder of the string, making it move in a circle. nothing is "travelling about the radius", and nothing is pushing outward from the axis. strings don't push!
centrifugal force is something you get in rotating frames of reference. one doesn't normally use such frames in physics because they are unecessarily complicated. but that is just a matter of calculational convenience; centrifugal forces are real enough in a rotating frame (it is called a fictitious force because it depends on the choice of frame, rather than being intrinsic. see this page [richmond.edu]). take a fast curve in a car and that fictitious force feels real enough, even if it isn't the simplest way to describe the situation mathematically.
Re:There's no such thing as centrifugal force. (Score:2)
"centrifugal force does not exist" is not true.
"centrifugal force is called a 'fictitious' force in physics 101" is true.
Re:There's no such thing as centrifugal force. (Score:4, Informative)
Webster's also says that centrifugal (from centr- + Latin fugere to flee) means "proceeding or acting in a direction away from a center or axis"
This is what I remember from Physics 101. However, I may be wrong, seeing as you are the one claiming to be the "physics geek". In any case, however, your definition is contrary to standard, correct English usage.
Re:There's no such thing as centrifugal force. (Score:5, Insightful)
There IS centrifugal force. It's a fictional force, which is a sort of misnomer. A fictional force is nothing but a force felt by an object in an accelerating frame of reference, like a ball on a string (since velocity is changing direction), or a car getting on a freeway (since velocity is increasing). The fictional force in your example would be the one felt by the ball, radially outward, with magnitude equal to the tension on the rope.
I think it is you who should have paid attention in physics 101.
I was wrong... (Score:2)
Uncle.
Consider me educated about centrifugal force being a fictitious force in changing frames of reference. Glad there are some smarties here to set us right.
Easier to move the laser beam! (Score:2)
Mirror Here (Score:2, Informative)
It's easy to get 100x (Score:3, Interesting)
Just like the bandwidth vs latency issue in network connections, all we need to do is add more data paths.
Can't spin the disc at 100x? Well, spin it at 50X and use 2 lasers (I know the first 50x drives did something like this, they were just REALLY buggy at the time). Can't spin at 200X? Use 4 lasers. Can't fit any more lasers in? Take a picture!
I'm really amazed that we don't have these already actually - we'll need em sooner or later, unless we change to all solid state electronics...
Another idea for faster cd reading ... (Score:3, Insightful)
Much louder too, of course. But getting cdreaders quiet is easy... its just that manufacturers prefer to make cheap drives instead of quiet ones.
A faster way (2,466x) (Score:5, Interesting)
This is a good way to get a fast CDROM drive:
This is based on these rough figures:
Assuming that the scanner is faster than the firewire (400Mbps) and 10% overhead for the data transfer, each cd image will be approx. 7.3 billion bits, taking just over 20 seconds to transfer. This device is a 2,466x speed CDROM "drive". Put that in your Pentium and smoke it! Scanner and algorithm design left as an excercise for the reader.
Finally!! (Score:3, Funny)
Cause after a while you have enough coasters.
What about kenwood? (Score:3, Interesting)
What it does is to spin the drive slower, but read 7 tracks in parallel. Now if they could get two read heads like this, it would be a 142x drive without having to spin the cd any faster.
[kenwoodtech.com]
Here's the info.
[ukquake] exploding CD-ROM drives (Score:4, Funny)
There was a noise from the next office like toast popping, and Steve the senior consultant yelled in terror. "Has your toast popped?" I shouted? "Someone just tried to shoot me!" he replied. I walked into his office to see the occupants crowded around an open CD-ROM drive with the shattered remains of about half a CD in it. As we watched, the drive attempted to shut itself, made it about half way, and then opened again. It repeated this process about twice a minute, shutting a little more completely each time. Eventually it fully closed itself, though it is still opening and shutting regularly. We didn't find the other half of the CD (at least some of it is presumably still in the drive and is what was preventing it from closing) but we did find the front flap of the CD-ROM drive under Steve's desk, where it had fallen having been blown clear across the room, past his head, and colliding with his notice-board.
Some points:Data Destruction (Score:3, Funny)
no... what cd-roms really need (Score:4, Funny)
How frustrating it is to push an eject button and watch a device deliberate for several seconds over SOMETHING before ejecting it's cargo!
Basically, that button means "Your work here is done", so give me the disc, OK??
Depends on the brand of CD (Score:3, Interesting)
more info (Score:3, Informative)
Background
The Audio CD Standard was set sometime back in the 70's. Then, it was decided that the record should rotate with different speeds, depending on where on the record the data was read, to get a constant data transfer rate. The method is named CLV (Constant Linear Velocity), or constant transfer rate. The transfer rate of an audio CD is a mere 176 kB/s, and to reach this rate the record only has to spin with 530 rpm when reading the innermost track, and 200 rpm for the outer track.
CAV is for Whimps
To be able to publish ever increasing spin ratios, many manufacturers have resorted to CAV (Constant Angular Velocity), a method whereby the record is not rotated faster when reading inner tracks. Thus they can specify impressive spin ratios for outer tracks and sell more, but in reality the spin ratio for the inner tracks is only 37.7% of this value.
CLV is for the Tough Boys
A 64x drive using CLV would have to rotate the disc with 33,920 rpm when reading an inner track, exposing the hub of the disk to a tangential force of some 45 N/mm2. A point on the periphery of the disc will be moving with 213 metres per second, slightly more than half the speed of sound. Can the disc take that?
The answer is no. A powerful no.
At about 52x, i.e. 27,500 rpm, most manufacturer's CDs blew up in a rain of plastic particles, leaving their marks on the premises. The result was a pile of shimmering plastic chips.
He also tried Kevlar reinforcement
In our efforts of reaching ever increasing speeds, we tried to reinforce a disc with Kevlar wires. [...] It turned out our motor didn't have enough power to spin up the disc enough to explode it in one try, because the Kevlar wires consumed several hundred watts of motor power for aerobreaking. [photo] After an extended period of time (about 20 seconds) at close to 28,000 rpm, the disc blew up with a loud bang anyway, with the wires remaining on the hub, as shown in the picture. It can be clearly seen that the wires remains pointing radially from the hub. The Kevlar wires had been stretched radially and performed as intended. What made the disc explode, was the creepage of the plastic material, i.e. its stretching over time, subjected to the high g forces.
Re:speed of sound?? (Score:2)
Re:What's the point? (Score:2)
BTW, that was meant as a joke.. (Score:3, Informative)
I honestly meant that as a joke. Seems like every time an article like this shows up on Slashdot, there's always somebody ready to say "whats the point?"
Oh well.
Re:centrifugal wha? (Score:2)