Category Archives: Science

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Wishing CERN A Very Happy Birthday!

It’s the Big Boy’s 57th birthday and this is as good a time as it has ever had! CERN, the premier high energy research institute, the home of the Large Hadron Collider (LHC), has got its hands full at the moment. With the Higgs search nearing a climactic ending and the recent neutrino results from OPERA, CERN has no need or time to look back. The future is bright and beautiful, not to mention potentially revolutionary. But look back, we must, for the last 57 years have been glorious ones too!

Happy Birthday, CERN

CERN: Needs no description

CERN, an acronym for European Organization for Nuclear Research (the proper acronym is in French Centre Européenne pour la Recherche Nucléaire ), is located in the pristine suburbs of Franco-Swiss border. While today it is known mostly for the LHC and its awesome power, CERN has had huge achievements in the past. It has yielded at least 2 Nobel Prizes in experimental physics, verified the Standard Model beyond doubt and has, along with the Tevatron, been the experimental hub of the particle physics world.

Inventing the WWW

The fact that you’re reading this very article is also thanks to CERN, since it invented the World Wide Web. It established hypertext protocols. It is now leading in ushering in the next generation of computing concepts like GRID computing. It has also revolutionized the art of making strong magnets a necessity in high-energy colliders and a mainstay of the medical diagnostic industry. While the Tevatron had pioneered in this field, the research carried on by CERN has far outrun Tevatron’s. Today, CERN’s coding wing is one of the best in the world, once again showing that, even in the fringe fields, CERN’s contributions have been revolutionary.

The Real Deal

Of course, these are mere morsels compared to the achievements by CERN in its main field of interest high energy physics. It has confirmed or demolished one idea after the other in the last six decades and is on the verge of another such feat right now. It has discovered neutral currents’ (1973), a vital component in the theory of weak interaction. It established weak interaction theory with the discovery of the W and Z bosons a decade later (1983). Tevatron was just being established at Fermilab at this time. It would then, in one fell swoop, usher in American dominance in the particle physics world and leave the European counterpart far behind. However, it was only at CERN’s historic Large Electron-Positron Collider (LEP) that the neutrino families were discovered (1989). LEP’s results now form the stepping stone for anyone entering the phenomenological field of high-energy physics.

The ATLAS building

The world-famous CP-violation effect was also directly noted at CERN in 1999, eliminating any shred of doubt that anyone might have had.


Of course, now it is breaking all barriers in Collider Physics with the LHC running at full blast and expected to go a couple of notches higher. Whether Higgs is found or not, LHC will have discovered major physics.

Here’s wishing CERN a very happy birthday. In the world of blazing fast results from higher and higher energy domains, CERN remains indomitable and will remain so for many years to come.

Best wishes and may you have a really long life.

A Million Monkeys Recreate Shakespeare; Weasels Do A Better Job, Says Dawkins

Monkeys to Man is passé, it’s Simians to Shakespeare now! Given enough time, a huge number of monkeys typing at a keyboard in a completely random fashion, will reproduce the entire works of Shakespeare. At least philosophically. Now, an eccentric computer programmer wants to test this out using virtual monkeys. Jesse Anderson, the evolved ape in question, is at this problem. Friends, Romans, Countrymen, lend me your ears; I come to recreate Shakespeare, not to praise him, writes one of his monkeys on his blog. Keep Calm and Carry On, says he!

Mon'Key'ing around

If you wait long enough, it’ll happen

So here’s the lowdown on the concept. If you keep on typing out gibberish for a very long time, typing away randomly, then there will be phrases or even an entire work of Shakespeare typed out in between that gibberish. This demonstrates a powerful concept in a simple manner: An event of extremely low probability will definitely occur, given enough time and enough chances for the event to occur. For a long time, this has been a topic just for philosophers. Dawkins brought it into science in his famous The Blind Watchmaker’, by explaining that no matter how improbable an evolutionary process might be, it will occur, since there is a huge period of time during which it could occur. Yes, this is akin to the typing monkeys. But it gets better than that, and we shall come back to that in a moment.

Gibberish to Genius

Anderson, on his blog. updates the progress he, or rather his monkeys, have made. The monkeys are computer programs that just type out alphanumerics, in completely random order, each keystroke completely unbiased and independent of previous strokes. He claims that he got his inspiration from the Simpsons and just wants to have fun! Amidst the gibberish, lie hidden other masterpieces of literature. A monkey Dickens came up with It was the best of times, it was blurst of times maybe proof-reading will take care of that!

As for the hardware, Anderson uses the Amazon EC2 with a modest Core 2 Duo 2.66 GHz processor with a 4GB RAM running Ubuntu 10.10 64 bit version.

Dawkins and his Weasels

So what about Dawkins and his weasels? Well, he had his weasels, which did an even better job. Using the phrase Methinks it is like a weasel’ as a target phrase’, Dawkins had written a virtual monkey program in 1998. It couldn’t produce any text even resembling the target phrase the first few minutes of running. So he added a cyber equivalent of Natural Selection. Every time a letter would match one of the target phrase letters at the proper place, it would be retained. This produced the target phrase in just a few cycles.

(Go To 5:32 if you’re in a hurry.)

So, Dawkins said, this is how evolution works. It isn’t a process of mere blind chance it requires a selection factor, the second stage of the Darwinian process. Natural Selection will produce complexity and requires significantly less time to do that. Given 4 billion years for life to evolve, it shouldn’t be surprising that creatures as complex as us evolved!

He He! My weasels beat your monkeys!

So there you have it at typing, weasels beat monkeys hands and feet down! Oh yes, no monkey or weasel was harmed during the running of these programs.

The End Of An Era: Fermilab’s Tevatron Shuts Down – A Tribute

It’s the end of an era, as the Tevatron at Fermilab retires. It has done everything that was expected of it and much much more. It has probably even saved your life, or the life of someone you know. It was the big thing, eclipsed by the next big thing. The Tevatron is really that Wise Old Man, who has done some wonderful things during his lifetime, hung around and supported everyone around him when there was no one else and is now being neglected in his old age, because someone else has stolen the limelight. The Tevatron was the mainstay of the physics community for nearly 25 years until the super-powerful Large Hadron Collider (LHC) at CERN came along. Even then, Tevatron’s edge had only slightly withered and it could still give the LHC a run for its money, while breathing its last.

The Final Hurrah – Webcast Link :

The Tevatron. The accelerating column in below the ground.

The Old Warhorse

The Tevatron was the old world’s greatest accelerator till the LHC came along. Stationed at Fermilab, it could easily produce energies in excess of 512 GeV (512 Billion Electron Volts). Constructed in 1983, it was fondly called the Energy Doubler’ owing to the successive increases of energy as upgrades came in. Its aim was simple verify the Standard Model.

The Standard Model is a mainstay of particle physics. It is the theoretical framework, which describes all the interactions in the Universe, with the sole exception of gravity, which is well-described by the classical General Theory of Relativity. It is the fruit of over six decades of intense work by the most brilliant minds of the 20th century, starting from the 1920’s and ending in the late 1980’s. What the theoretical framework needed was the experimental verification of the heavy particles that it predicted. Could the beautiful theory, constructed by considering the most wonderful aspects of symmetries in Nature, stand up to the test of reality? Tevatron was the only way to know.

The Standard Model Scheme (Courtesy: Fermilab. Appropriate, isn't it?)

The First Big Break – A Top Achievement

The first big break came in 1995 with the discovery of the top quark. The top quark is one of the six types of quarks predicted and belonged to the third generation of the quarks (Graphic above).This means that it is one of the heaviest particles known and is extremely difficult to produce and even harder to detect. According to Einstein’s famous relation E=mc2, we need a minimum energy mc2 to create a particle of mass m’. The problem is that a particle cannot be created in isolation; it comes in with an antiparticle, which has the same mass ‘m’. Thus, you can’t produce just a top, but a top-antitop pair, which means that you need at least 2mc2 to produce the top quark. As a rule of thumb, the energy of the beams colliding within the accelerator has to be about twice the needed energy. For the top quark (rest mass energy of nearly 175 GeV), this amounts to 700 GeV minimum. It had to be the Tevatron.

The Top Quark Production and Decay. Note that a single top quark cannot be produced.

However, energy scale is not the only thing that the Tevatron redefined. It redefined the sensitivity of the detectors. Its detectors – the CDF and the D0 (D-Zero) – were the most sensitive in the world before the ones at LHC came along. The massive top quark immediately decays into lighter quarks, mainly the bottom quark. The decay happens so very fast that without great detectors, the top quark would’ve remained elusive. It could only have been the Tevatron.

Now, running at nearly 2 TeV, the Tevatron regularly produces the top quark. The exact mass of the top was also provided by Tevatron in 2007 to an accuracy of 1%.

More Success

What about the Bottom-Strange particles, you ask? Well, it had to be the Tevatron with the answer. Regular matter particles, called baryons, are made up of quarks. Certain particles, called mesons, are made up of just two quarks, in contrast to protons or neutrons, which are made up of 3 quarks. Each meson contains one quark and one anti-quark. The Standard Model predicts that such particles will undergo baryonic oscillation’ before decaying. Simply put, in a bound state of Bottom and Anti-strange quarks (remember, a quark-anti-quark combination), the bottom will go to anti-bottom and anti-strange will go to strange. They will zip in between these two states, before ultimately decaying into lighter particles. This is a firm prediction of the Standard Model. In 2006, Tevatron’s CDF made measurements of this process. As I said before, it could only have been the Tevatron.

NASA Spacecraft Catches A Huge Solar Flare; Increased Sunspot Activity Leads to Awesome Auroras

The Sun’s roaring again and it’s usually bad news when that happens. An active sunspot, Sunspot 1302, has suddenly grown vigorous and is releasing vast amounts of highly energetic charged particles hurtling out of the Sun. It released a huge solar flare on the 24th of September and its hyperactivity continues unabated over the last few days. The activity was caught by NASA’s Solar Dynamics Observatory or SDO.

Coronal Mass Ejection and a brilliant lightshow

NASA warned that a huge Coronal Mass Ejection (CME) or a Solar Flare is in progress. The CME occurred at about 8:15 AM EST, today i.e. on the 26th of September. Upon reaching Earth this will cause a huge geomagnetic storm, interfering with radio communications everywhere. This will also produce scintillating auroras near the poles of the Earth. If you stay in the higher altitudes, remember to look up in the sky the light show is due to the Sun.

This is Big!

Scientists use a Kp-index to indicate the enormity of the Solar flare. It is a scale from 0 to 9, 0 indicating no activity and 9 indicating hyperactivity. It tells us whether there will be a significant geomagnetic storm caused due to Solar activity, with any reading above Kp=4 denoting a geomagnetic storm. The 26th September solar flare was marked Kp=8! The solar flare was so huge that it could be heard on all radios across the world. Here’s a video from NASA.

The solar flare was marked as a X1.9 category flare, indicating that it had some X-ray components to it. However, this is much lower than the X6.9 solar flare on 9th August or even the X2.2 flare on 15th February this year.

The increased activity of the Sun is related to the peak in the Solar Cycle. The Peak is expected in Early or mid-2013 and this is all leading up to that.

A thing of awe is a source of beauty forever.

Fermilab To Check Own Data To Verify OPERA’s Faster-Than-Light Neutrino Claim

After the astonishing result from the OPERA collaboration of detecting neutrinos travelling faster than speed of light, Fermilab wants to double-check the claim. This is an inevitable step in the direction of validating the apparent finding. If Fermilab’s MINOS data doesn’t find anything that replicates the OPERA observations with high enough confidence, then the OPERA result, despite its hype, will become null and void.

The MINOS experiment at Fermilab


Here’s the reason why, despite the care and beauty of the OPERA experiment, it needs independent corroboration: every scientific result must be reproducible. Fermilab has an advantage over other neutrino research labs in the world since it already has the data sets from the famous MINOS experiment.

Neutrino Oscillations

MINOS was Fermilab’s version of the Super Kamiokande experiment,. Neutrinos come in three flavours or types electron, muon and tau. The curious thing is that neutrinos can oscillate’ or change between these types. An electron neutrino can become a muon neutrino. A theoretical mechanism, known as the see-saw mechanism, explains this, using certain unknown parameters, which need to be supplied experimentally. Super Kamiokande performed experiments in 1998 and confirmed the phenomenon of oscillation and measured the mixing angle’ too. Fermilab repeated this experiment and found consistent results. This was the MINOS experiment, MINOS standing for Main Injector Neutrino Oscillation Search.


Well known to scientists in the neutrino field, but virtually unthinkable to the outside world, is that fact that MINOS had actually detected neutrinos moving faster than light. However, these couldn’t survive analysis and presented only a 1.6 to 2 sigma confidence level, below the 3 sigma needed for validation and way below the 5 sigma needed for labeling it as a discovery. MINOS now plans to sift through their data and put it through rigorous analysis. MINOS should take less than 6 months, since the data is already available to them.

It won’t matter if the OPERA experiment isn’t proved wrong. If Fermilab and T2K don’t reproduce the data, OPERA will be up for grabs. Einstein, thou be still… at least for 6 months.

Unknown “Ball of Fire from Sky” Causes Explosion In Buenos Aires, Argentina

Something big is up in Buenos Aires, Argentina and it’s unknown. There appears to have been some sort of fireball crashing into the earth, but this is unconfirmed. The casualties include one  dead and at least nine injured. The cause is still unknown, some suspecting a meteorite crash, other sticking to a burning plane or a gas line explosion. Eyewitnesses claim that a mysterious “ball of fire from the sky” was the cause of the explosion.

Strange fire in Buenos Aires. This was the supposed 'fire ball'.

The event took place very early in the morning – at 2:00 AM local time and thus most people were asleep. The explosion destroyed two houses, one store and a few parked vehicles. According to Bad Astronomy, the fireball was red in colour, but other news  reports say that it was blue.

Just to allay fears, we hasten to add that it was not NASA’s falling satelite, UARS, since that had hit the ocean a couple of days back. We had already told you why you shouldn’t get worked up about the falling satellite. There is no way some junk could’ve been hanging around in the atmosphere for two days. That is simply impossible.

Some people suspect that it was a a burning airplane that crashed, but there has been no wreckage found. Officials have also ruled out any gas leak related explosion.

Frankly, at this point we don’t know. Let us not bring aliens and a crashed UFO into the picture. Let the extra-terrestrials be as they are, please.

We will update as soon as we have some more news. As cliched as it may sound, we would ask you to stay tuned.

Challenging Einstein: Faster-Than-Light Neutrino Result From CERN And Explaining What It Really Means

So CERN has stunned us with a result and this one doesn’t even come from the LHC. The premier European high energy research institute has detected neutrinos that seem to move at a speed greater than that of light, violating one of the most sacred pillars of physics Einstein’s Special Relativity. You must have read about it we posted it here. So what about these faster-than-light neutrinos? Why are so many people all excited about them?

Faster Than Light Neutrinos, Claims CERN:
Yes? You Called? Say What!

In this article, I will try and explain that, touching upon four crucial points. First we need to understand why people are not ready to believe the result in the first place. Next, we’ll understand whether this is believable or not. Is CERN just tricking us or have they put real hard work behind this before publishing it? Next, we shall talk about the implications of this result, if it is proved right. Lastly, we discuss how there can still be flaws and where some glitches might be found in the coming days.

Unlike the popular media, scientists are treading softly on this result. They are not yet ready to say that Einstein was wrong, although that is what it would imply. They are merely reporting facts at this moment, stating the results as got in the experiment. The result is very possibly wrong, but let’s take a closer look.

What on earth are Neutrinos?

The real heroes of this story, Neutrinos are the slipperiest of all known particles. They carry no charge, almost no mass and interact extremely feebly with other matter and that too via the weak interaction. They’re nearly impossible to detect. They leave no tracks in bubble chambers (no charge), don’t interact with each other to form clumps (no strong interactions, like those of protons and neutrons) or speak with normal matter particles. Scientists were forced to assume its existence to solve a puzzle (the beta decay problem), and, even though neutrinos have been detected after that by several detectors, their properties remain largely mysterious. They are giving a headache once more.

Why are people not ready to believe it?

Simply put, it’s Einstein. People are not expecting anything new and now they find this! This is just too unexpected. Why take a result so flagrantly conflicting with all known physical results at face value? Well…

Is this result Believable?

As an answer the first of our questions, I would go with a Yes‘. The result is totally believable in the sense that the experiment and analysis seem water-tight at this moment. Scientists of the OPERA collaboration have been looking at the data for three years! They have done everything scientifically possible to discredit their own finding, but have only managed to strengthen it.

Remember, we told you in the particle physics articles, what confidence level means? A confidence level, quoted as some n-sigma, n’ being an integer, refers to the amount of confidence the experimenter has on his/her own results. A 3-sigma result is one which is significant enough to be considered a potential for detection’. This means that the doubts are less than 0.3%. We’re just getting warmed up! For a discovery’ we need a minimum of 5-sigma, which is a confidence level of 99.9999%.

The current results are a 6-sigma, at 99.999999% confidence level, high and above the threshold required to get a discovered’ tag!! This still doesn’t mean that it is true. It just means that the possibility that this is merely a statistical fluctuation is extremely small. They two are very close, but not the same.

Schematic layout of the OPERA experiment.

The real motivation for believing in what CERN has found is the methodology they’ve applied in finding out the results. They had found this result 3 years back, but never jumped the gun in publishing it. They checked and re-checked everything, found crucial error bars and found that this result survives. They added more parameters contributing smaller errors, hoping that they’ll somehow add up and then give the necessary’ error bars. They didn’t.

We’ll just talk about the use of GPS and cesium atomic clocks to measure time and how accurately the distance was measured.  Since velocity is simply distance divided by time, we need both parameters accurately.

NASA’s Falling Satellite Crashes: Did You Use Android’s Tracking App and Insurance To Protect Yourself? [UPDATED]

If you’re dead scared of the falling NASA satellite, you can now use your Android phone to keep track of the rogue beast. A free Android app lets you track the falling UARS satellite.

We’ve already told you about the defunct satellite crashing to the Earth (here). We’ve assured you that it won’t hit you (here)! You can safely go about your routine job without worrying about anything. Still Android provides further assurance.

UPDATE: UARS Satellite is DOWN! The Debris Fell Between 2323 EST on 23rd September to 0109 EST on 24th September. This is official from NASA. Location is not yet known

The Falling Satellite

It’s Coming Crashing Down! Tonight!

NASA’s defunct UARS satellite is crashing tonight, 23rd of September. The location and exact time are not yet known. It will definitely miss North America and Europe and will, thus, plunge into the sea. The debris will be spread over a large range of latitude and longitude, so some may yet fall on land. However, we’ve already assured you, relying on NASA, that you’re safe.

NASA App (And Insurance!!)

Android App

You probably know of the Android app Satellite AR. They have added a temporary button allowing you to track the UARS spacecraft as it makes its fiery descent towards Earth.

You can read more about it and download it here.

The app allows you to track all satellites directly above you. For today, it allows you to track the falling satellite in its final moments.


There’s more! There’s insurance against being hit by falling satellite debris. The insurance companies must be smiling ear to ear as they dole out one-time pay insurances for many people insuring their and their family’s lives as well as their cars or houses. Health insurance will cover injuries and life insurance will cover… well, you need not bother thinking about that.

There has been only one incident of someone being hit by falling space junk! And she never got hurt. But that doesn’t mean that you should drop your guard in front of a falling bus-sized satellite, right?

Particles Travelling Faster Than Light Detected, Claims CERN

CERN Has Just Made A Huge CLAIM!  

Particles travelling faster than the speed of light have been found. This startling claim comes from a source as respectable as CERN. This was supposedly observed in a neutrino experiment carried out by CERN. However, it is too early to confirm this startling result.


UPDATE: The ‘discovery’ was made by the OPERA experiment while the neutrinos were beamed from Geneva to a lab in Gran Sasso in Italy. The pre-print of the report, prepared by CERN and published today (23rd September) can be found here:

A news webcast by CERN will be available live later today. Details and URL of the webcast :
CERN Press Release by CMS:

Faster Than The Speed of Light? Real Life Tachyons?

Albert Einstein and his Special Theory of Relativity taught us that nothing having mass can travel at the speed of light or above. Massless particles can travel only at the speed of light. Thus, nothing can travel faster than the speed of light.

CERN’s scientists have now found that neutrinos, one of the most enigmatic particles, have breached this barrier. Neutrinos have nearly no mass, no charge and interact negligibly with ordinary matter. It is due to these properties that they cannot be easily detected. The scientists claim that a neutrino beam fired near Geneva to a lab 730 kilometers away in Italy reached its destination 60 nanoseconds earlier than expected. The experimental and statistical errors combine to deduct 10 nanoseconds, which still leaves 50 nanoseconds unexplained and makes this result significant. There are obvious checks and re-checks being performed.

What All Of This Really Means – Is Einstein Up For Grabs? A Close Look:

Confirmation Awaits

CERN is now depending on the colliders in America and the T2K neutrino experiment in Japan to reinforce its findings. The findings may need many runs and checks to be confirmed. Once confirmed, it raises many questions, including why such an effect wasn’t noticed before. The big question would be this: What happens to Special Relativity, which is an extremely reliable theory?

John Ellis, a theoretical physicist at CERN, gauges the magnitude of the find, if found true:

This would be such a sensational discovery if it were true that one has to treat it extremely carefully.

About the implication for Special Relativity, Ellis says that It has worked perfectly till now”.

Jury Out On Relativity? Not Really!

A knee-jerk reaction would provoke statements about revolutionizing the whole of physics, since stars to elementary particles, all rely on the Special Theory of Relativity. It has been wonderfully accurate, especially when combined with Quantum Mechanics to form Quantum Field Theory. Personally, at this moment, I don’t think this will throw Relativity out, even if the result is correct – Relativity is too beautiful and has been proved too correct in too many situations for that drastic step. I would even stick my neck out and add that this observation is some sort of experimental glitch and that faster-than-light particles have not really been detected. However, only more tests will testify to that.

The grand old man of physics has been challenged by a tiny, nearly massless particle.

What all of this really means:

NASA’s Falling Satellite To Hit Earth Tomorrow: Don’t Panic, You Won’t Be Hit; Enjoy The Light Show Instead [UPDATED]

If you believe in the old superstition and see the bus-sized NASA satellite falling in a day or two, do remember to make a wish. The UARS falling through the atmosphere will look like a nice shooting star. And as for being hit by falling debris, let me say what Douglas Adams had said so very successfully Don’t Panic. NASA assures that your chances of being hit by a piece of debris from the falling space-craft are extremely small.

The satellite may enter the Earth’s atmosphere at any time between Sept 23 at 1023 EST (1432 GMT) and Sept 24 at 0248 EST (0648 GMT). This 19-hour window is NASA’s best bet. The point of re-entry, as predicted by Harro Zimmer in Berlin, will be over the West Pacific near Northwest Japan. The range of co-ordinates is about 19.10N and 128.50E.

The satellite may be seen over South Florida after sunset.

Satellite was falling faster than earlier thought:
The UARS satellite (Courtesy: NASA)

How Unlucky Do You Need To Be?

We intend to do a small qualitative comparative study to quell any fears that you might be having. NASA has come up with a figure of the possibility that anyone any one single person will be hit by a piece of debris from the satellite. The chances are less than 1-in-3200.   The chance of you being hit (the more specific case) is 1-in-hundred-trillion. You’ve got to be REALLY unlucky to get hit.

Let’s compare some numbers. One-in-hundred-trillion is really the same chance you have of dying while shaving with your electric razor. The chance of you being struck by lightning is 1-in-60,000. The chance of you meeting a car accident is much higher. If you can live with these possibilities, you shouldn’t be worried about falling space debris. As I said before, you’ve got to be REALLY unlucky.

Still Worried? Enjoy the Light Show

NASA admits that they don’t know the location of the spacecraft and they’ll only know that once the UARS spacecraft re-enters the ionosphere of the atmosphere. They predict that the latitude will be something between 600N and 600S (roughly), but that of no use. It is quite obvious that the satellite will not plunge into the Polar Regions. This leaves a large swath of ocean free for the satellite to plunge into.

If you’re still worried, maybe you can at least get lucky enough to see the satellite re-entering the Earth’s atmosphere, breaking up and then burning up. This will create a nice light show mimicking a meteor shower. However, unlike a meteor shower, this will last for a very short time.

If you’re still paranoid, we advise you some bed rest. At least, that way you’ll be indoors.

New Theory Explains The WTC Twin Tower Collapse, Blows A Hole Into The Conspiracy Theories

Conspiracy theorists can eat their hats. A materials expert from Norway, investigating the collapse of the WTC twin towers, has come up with a new theory explaining why they collapsed in the spectacular fashion seen on 11th September (9/11), 2001. Christian Simensen, a material scientist in SINTEF, the largest independent research organisation in Scandinavia, has claimed that it all has to do with alumina coming in contact with sprinkling water.

Our Tribute to 9/11:
A photo clearly showing an explosion below the area where the plane hit. This has led conspiracy theorists to conclude that the entire building was booby-trapped.

Simensen pointed out that molten aluminium running down to meet some hundred liters of water would create an explosion strong enough to disintegrate the tube-in-tube structure of the towers. These could easily punch away at solid steel columns. He quoted several instances of known explosions, which resulted when hot aluminium came in contact with mildly warm water, to support his theory. He says:

From other disasters and experiments carried out by the aluminium industry, we know that reactions of this sort can lead to violent explosions.

The Powerful Alumina and Water Bomb

There was no dearth of molten aluminum, as the planes could supply as much as 30 tons of the substance at a temperature close to 15000F for an optimal oxygen-jet fuel mixture. Aluminium even at half that temperature would have done the trick.

This aluminum-water explosion scenario would explain the explosions seen in the building just before they collapsed. The explosions, unexplained till date, have provoked many conspiracy theories, which have constantly claimed that 9/11 was an internal job and that the towers were booby-trapped. This might shut them up, or maybe not.

How Powerful? Very Powerful!

Just to give you an idea of the intensity of the explosion, let me quote a controlled experiment. It was conducted by Alcoa Aluminum. They mixed 20 kilos of molten aluminium with 20 liters of water and used a small quantity of rust as catalyst. Simensen reports the catastrophic observations:

The resulting explosion blew away the entire laboratory and left a crater 30 meters in diameter.

Simensen presented his findings at an international materials meet in San Diego, California and will publish the results in the trade journal Aluminium International Today.

Yet another conspiracy theory bites the dust!

Typhoon Roke Hits Japan, Moving Towards Fukushima And Tokyo

Typhoon Roke has just hit Japan! The first few news reports and photos are just coming out.  Typhoon Roke made landfall at Hamamatsu, just south east of the industrial city of Aichi, and this is its current location. It is on course for Fukushima, the city housing the troubled Daichi nuclear power plant. Tokyo might be hit too. Roke is expected to reach Fukushima in another two days time. The wind speed is 100 mph.  

We had warned about the approach of this storm in a previous post here.

Landfall and destruction

Unlike Irene, which fizzled out as it made landfall, Roke did not die. It has caused heavy rains on the coastal region. High speed winds have caused enough destruction on their own. All operations at sea have been discontinued for the coming days.

Sea surge caused due to Typhoon Roke (Courtesy: The Telegraph, Associated Press)

Initial reports indicate that at least 4 people have died in this initial spell of rain. This number, no doubt, will rise as more is known of the storm’s devastation. Aichi has been largely evacuated. The overflowing of the river that flows over Aichi has caused widespread flooding in the city.

Photos from the first few hours:
The current position of the eye of Typhoon Roke, just south of the main island of Honshu. (Courtesy: The Weather Channel)

Fukushima and the Nuclear Worry

The biggest worry is Fukushima and the damaged nuclear power plant. Radioactive material will over flow into the sea and the surrounding areas due to the heavy downpour. Officials had begun preparations for the approach of the storm a few days back and are continuing to reinforce the defences of the nuclear power plant. Cables have been tied down and maximum effort is being put to ensure that no radioactive water leaks onto the habitable areas.

Dai’chi Plant Was Dumping Radioactive Waste Into Sea:
Measuring Radiation: How Much Radiation is Too Much? :

The Japanese Meteorological Department has advised the highest level of caution to be used due to heavy rains, strong winds and high waves. Very heavy rains are expected in the coming days with as much as 5 cm in one hour!

These are just initial reports. We’ll continue tracking the storm, as it makes its way towards Fukushima with no expected loss in intensity.

We wish our beloved Japan the very best. It has been through worse in history, and it could fight back every single time. We know that this will be no exception.

Link to a previous post:

Typhoon Roke To Hit Japan; Millions To Be Evacuated, Fukushima To Be Hit

Panic grips already-ravaged Japan as Typhoon Roke nears. The city of Aichi, one of the largest cities of Japan, has ordered an immediate evacuation of 1.1 million. The city of Nagoya was also issued notices to evacuate the city as soon as possible. Heavy rains have already started in the city. The eye of Typhoon Roke is at about 200 km (or 125 miles) southeast of southern Japan, on Tuesday, 20th September. It is moving northwards, on a collision course with the island nation. Fukushima is also on its path.

UPDATE: Typhoon Roke Strikes Japan:
The location of Roke. (Screenshot courtesy: The Weather Channel)

Typhoon Roke

Roke is moving northwards at a speed of 20 kilometers per hour and the wind speed is 200 kilometers per hour.

For Japan, which is still reeling from the devastating tsunami earlier this year, this is more bad news. A few days back, tropical storm Talas left about 100 people dead or missing. Roke is much bigger.

The worst fear is that of Fukushima. The typhoon is almost certain to hit Fukushima in another 48 hours. Restoration work is being carried out at the Dai-chi plant and, at the very least, this will delay and hinder that process. The more realistic fear is that the radioactive water will overflow into the surrounding areas and into the sea.

The storm will make landfall on September 23rd.

We will bring more updates on this tragedy and will be closely tracking the fate of Fukushima.

Children’s Book On Evolution, Not Published In The US, Gets An Award in Canada

History seems to repeat itself once in a while; it’s just that during the intervening time the weaker side might have gotten stronger. A children’s book on Evolution which could not be published in the United States, has just won an award in Canada for best science book for children. Evolution: How We and All Living Things Came To Beby Daniel Loxton has won the 2010 Lane Anderson Award  in the young reader category in the field of science. It was also a finalist for the Silver Birch Award for non-fiction, one of the most prestigious book awards. Loxton is Canadian.

Kids Can Press Webpage for the book:
The Cover of the Book

Teaching a Scientific Fact

Loxton’s book speaks of evolution and intends to explain it to children between the ages of 8 and 13. This follows a string of wonderfully accessible books for the public written by eminent evolutionary biologists, like Richard Dawkins’ The Greatest Show on Earth’ and Jerry Coyne’s Why Evolution is True’. The decision to not publish this book in the US is due to the powerful Christian creationist lobby sitting in the various corridors of power. They are well-funded, politically powerful and extremely motivated, ready at a moment’s notice to take steps against anything deemed remotely anti-Christian.

No Rabbits in the Pre-Cambrian

Evolution has sparked many debates since the time of Darwin, who explained the mechanism using Natural Selection as the primary (but not only) driving force in his ‘Origin of Species’, published in 1859. It was immediately slammed by religious apologists, who believed that the Genesis Creation story was literally true. Despite Darwin not responding in kind to the insults hurled at him, evolutionary theory has continued to grow, just as scientific truth does. Darwin’s 30 years of evidence collection supporting his own hypothesis was followed by 150 more years and counting. Not one piece of evidence has disproved evolutionary theory, despite there being extremely easy ways to do so (Just find a fossil rabbit in the Precambrian, as J.B.S Haldane put it). Evolutionary theory is as grounded a theory as Newton’s gravitational theory. Creationists are worried that a book aimed for the young minds will be indoctrination rather than science training. Seriously? Indoctrination?

“We Have Fossils, We Win” Wait, we have the Genes, too

Loxton discusses the concept of fossils in his book, giving importance to the geological time scale. The fact that fossils of increasingly complicated creatures are found in increasingly new rock strata provides compelling evidence for evolution. But, evolutionary theory would still be complete were the entire fossil evidence to disappear off the face of the Earth suddenly. Loxton explains DNA, mutations and genetic structure, which tell us more about the relationship between species than fossils have ever did. Using these, he explains the meaning of ‘drug resistant’ microbes (superbugs) and why the influenza vaccine needs to be renewed every couple of years. Even the genetic family tree constructed would be impossible had evolution been false.

Being Plain Wrong

This is not new. Creationism, along with its rechristened avatar Intelligent Design’, has tried to tacitly enter school classrooms and curricula numerous times. Well funded and politically backed, creationists have been rooting for public debates’ on the science for evolution. Their motto is simple and effective – “Teach the Controversy”. A quick look at these debates reveals the fact that these are merely attempts to malign the scientists who participate in them. As Dawkins said, the very format of a debate means that two sides have some equally respectable point of view. That’s not true in this case one side can be plain wrong.

Loxton has reported receiving hate mails asking as to why his book doesn’t give equal timeto Intelligent Design. Loxton, an editor of the Skeptic magazine, has the answer ready the book is about science and not religion.

No, the Jesuit priest saying Give me the boy and I’ll give you the man’ is indoctrination. This is opening children’s minds and teaching them science.

News From CERN: Israel Become First Non-European Associate Member Of CERN

Israel became the first non-European nation to join CERN. The decision was made at a meeting in Geneva on the 16th of September, 2011. Israel will be an Associate Member’ of the CERN collaboration and will keep that status for a minimum of 24 months.

Israel has been an Observer’ State for the CERN Council since 1991. It was promoted to special Observer’ in 2009. This move was inevitable.

Rolf Heuer (left) and Israel Ambassador, Leshno-Yaar, (right) shake hands at the landmark meeting (Courtesy: CERN)

Road Forward for CERN

Recently, at the Lepton Photon Conference, 2011, held at the Tata Institute of Fundamental Research, Mumbai, India, Rolf Heuer, the Director General of CERN, outlined the road ahead for CERN. He said that there were plans to include non-European nations into CERN in his speech. The E’ in CERN would no longer stand for European’, but would come to mean Everyone’, he said.

Rolf Heuer, DG, CERN and the Israeli Ambassador and Permanent Representative to the United Nations, H.E. Mr. Leshno-Yaar signed the agreement , which admitted Israel to the CERN Associate Membership. The document still needs to be ratified by the Knesset. This officially makes Israel a member for a minimum of 24 months.

Rolf Heuer said of this development:

It is a vital part of our mission to build bridges between nations. This agreement enriches us scientifically, and is an important step in that direction.

Israel had played a major role in the 1990’s, during the historic Large Electron Positron (LEP) Collider Experiment. This was an important milestone in the legacy of CERN.

More than just science

This move will gain Israel more monetary support from CERN to further its own research interests. Israel has supported Palestinian students in research by providing them funding and equipment on the same footing as Israeli students. It has sent mixed Israeli-Palestinian students at the various summer science camps organised by CERN.

The very act of systematically scouring for facts, known as science, might be the adhesive for the world that wise men have been looking for.

CERN’s Press Release: