Ming – A 507 Year Old Organism Killed By Scientists

By Anupum Pant

A few years before Leonardo da Vinci started painting the Mona Lisa, somewhere deep in the ocean, in the year 1499, a clam was born. When it stepped into this world, it was also the period of Ming Dynasty in China, so several years later the clam was named ‘Ming’ (Scientific name: Arctica islandica) by scientists. Ming was the 507 year old organism that unfortunately got killed.

Like crocodiles, clams are also one of those biologically immortal organisms. This one lived on for 507 years till the year 2006, when it was discovered by a group of researchers in deep oceans. Unaware of its age, researchers stored it like all the other 200 clams they had gathered, using refrigeration, which killed it (and the others). It was an unfortunate accident; definitely not intended in any way.

World record: Ming the clam was recorded as the oldest individual animal ever discovered. The record mentions “Individual” because often colonies are recorded to live for really long times. By those measures, this clam would have stood nowhere in comparison. For example the deep-sea black and gold corals 2700 years old have been found. But, scientists are pretty sure that there are older individual organisms [than Ming] still living out there, waiting to be discovered.

Why do they live so long?

Their genes, extremely slow oxygen intake and very slow metabolism are some of the known factors that enable these clams to live for centuries. Their age is measured accurately by using Radiocarbon dating.

The Rings: But more importantly these clams have rings on their shells. These rings are like our fingerprints, unique for each clam. The number of rings on the shell also gives a pretty accurate estimate of their ages; like rings on a tree stump help us to find the age of a tree. Initially, a few researchers, using these rings, wrongly estimated the age of Ming to be around 400 years. It was corrected later by others.

The oxygen isotopes present on the rings can be detected too. These measurements give scientists a useful insight about the climate changes that must have happened over the years.

Author’s Note: This is the 50th post by me here which marks a 50 day anniversary. By now, I’ve become a happy blogger with more than 12K views already. Thanks all. Do take some time to check out the archives.

There Is No Pink

By Anupum Pant

As we’ve seen before in a talk by David Eagleman, that there is nothing like colors really. They are simply electromagnetic waves with varying wavelengths. Colors are perceptions created by our brains that give us an evolutionary advantage to differentiate things easily. Without colors it would have been really difficult for us to spot fruits on trees. Of course that is just one of the millions of examples of how colors help us.

Perception kept aside for a while, we actually do know that there is a spectrum of visible light as we see it – ranges from violet to red. We see this spectrum on rainbows and thin films. Each of these colors on the spectrum is a wave (and particle) that has a particular frequency.
Mysteriously, the universal symbol of love, the color pink, is absent in this spectrum. There is no specific frequency for the color pink. There is no pink. Still we see it. So, what is pink, really? If it isn’t in the spectrum, why do we see it?

Why do we see pink?

Single type cone alone: We detect colors through these things called cones that are present at the back of our eye. There are 3 types of cones – let us call them red, blue and green. So, if an object absorbs all the white (sun) light and sends just the red color [waves] towards your eyes, red cones get activated and your brain tells you, you are seeing the color red. Similarly, green or blue cones get activated when the respective green or blue waves come towards your eye and then you are able to see the colors green or blue.

2 of them together: For other colors, things can get a bit complicated. To see pure yellow, both red and green cones have to get activated. Similarly, when green plus blue cones get activated, you see cyan, and blue plus red cones let you see the color magenta.

But cone aren’t switches that go either one or zero. They are like sliders. For instance, to see the violet color, your blue cones get fully active, while the red cones are activated only to a certain extent. As a result, your brain says, violet! That is 2 types of cones working together.

3 of them together: Now let us see how three of them work together. The color white activates all the 3 type of cones fully. Black activates none. And so on…

Pink does something similar as it uses three types of cones. To see pink, all three types of cones have to work together.  When red cones get fully active and the other two are only partially activated, we see the color pink.

So, even if objects don’t reflect magenta, yellow or pink (or several other RGB combinations like that), our cones can send mixed signals to our brains and the brain in turn creates these colors for us. In reality, they don’t exist.

[Read more]

What is pink really?

Henry Reich of minute physics, in his video explains this by referring to pink as white minus green. So, according to them, the color pink is actually minus green.  In short, absence of green color is nothing but pink. I’ve attached the video below:

Mpemba Effect – Hot Water Freezes Faster Than Cold Water

By Anupum Pant

In the past, we have seen that when it comes to estimating temperature, we are not so smart. Once again seeing the Mpemba Effect defying all known logic, reminds me to be careful about applying logic to most of the natural phenomena which are seemingly simple but in reality are extremely complicated.

By applying simple logic, a 7-year-old could tell you that cold water should turn into ice quicker than hot water would. It should, because a hot liquid contains a lot more heat as compared to a colder liquid, which [the heat]  has to be removed in order to freeze it. Yes, it is what anyone who is unaware of the Mpemba Effect would think. But, that isn’t the case with water. It turns out that a very common substance – water – is not as simple as it looks.

Mpemba Effect

Since the time of Aristotle and Descartes, scientists have noted that hot water can freeze faster than cold water (and yet the effect is not popularly known among us today). Although the effect was noted back then, the actual mechanism which caused it remained a mystery all along…until the year 2013.

All this time this effect must have been known by some other term because, it was not until the 1960s it was named “Mpemba effect”. It was named that after a Tanzanian cookery student Erasto Mpemba when he observed that hot ice cream mix froze faster than the cold mix.

Several theories have tried to explain the mechanisms that cause the Mpemba Effect. Not even one of them was convincing enough. Probably this is what propelled the geniuses from Singapore who could finally solve this mystery during the month of October this year.

What causes it?

In simple words, Hydrogen bonds cause this effect – faster freezing hot water. Normally, individual water molecules are connected by this bond called the Hydrogen bond. Think of the water molecule as a string with two bullies – hydrogen bonds – one on either side. These Hydrogen bonds pull this string from both sides. As a result, the string stretches. We’ve all fought with rubber bands and know that a stretched string has a butt load of energy stored inside it. The same thing happens with water. Energy is stored in stretched water molecules at normal temperature. This extra energy has to be removed to cool water.

At a higher temperature, the heat kind of weakens these bullies. So, the weak bullies aren’t able to pull the string as much. Now, individual molecules sit apart. They are no longer stretched. Thus, not much energy is stored in these strings anymore. They have given up energy. There is no longer any extra energy that needs to be removed. Hence, cooling is faster.

Sorry: Today I don’t have my buddy – the internet – with me. So, you won’t see any outgoing reference links today. I have a just a bit of internet (a slower 2G connection) which I’m using up to publish this.

Cellphones and Safety at Gas Stations

By Anupum Pant

I’ve been chided several times for taking a call while filling up my vehicle at a petrol pump. All these times I’ve felt bad for going against the clearly displayed signs which say “no cellphones”. Unfortunately, phones today have become our extended arms, we are not always aware when we click the green button on them (touch the green button these days). When I do, I usually run out of the gas station to save my life. Do you know why?

Widely circulated chain messages

Well, the displayed signs at the gas station have coded it in me to keep the cellphone away. They clearly tell you to keep your phones away. But, it is mostly because I’ve received about a 100 chain messages telling me this (please don’t pass it on):

*** PASS THIS ON TO ALL YOUR FAMILY AND FRIENDS ***

Mobile phones an explosive risk at gas stations. Switch off your mobile phone while filling your car. This is the latest advice for mobile phone users and gas station attendants alike from the Chinese Petroleum Corp. (CPC), which has recently informed all its affiliates to be on alert for people chatting on mobiles while pumping gas, a practice it asserts can cause explosions. “There have been several explosions in Southeast Asia and Europe and we hope similar tragedies can be avoided in Taiwan,” said David Tung from CPC’s main engineering division….

But is it really that dangerous to use a phone in the gas station? Even if TOI tell me it is, I decided to find out.

Most end up simply believing these messages, especially when they [the messages] are strengthened by videos like these: [Video 1] [Video 2]. The truck video doesn’t show where exactly the cellphone came from. Like a comment under the video points out, he could have been using a lighter to see the level of petrol (this couldn’t be true either).

But, let me tell you, not all videos on the internet are real. For example see these: [Video 1] [Video 2] [Video 3].
Cellphone ‘Radiation’: According to one of these videos, radiation from a couple of cellphones has enough energy to pop popcorn. This is pure BS. To counter that, I’ll tell you it takes my microwave 2 minute 45 seconds at full power to pop a bowl of popcorn. If cell phones could do that, well, great. We would need no microwave ovens anymore. Still, it is up to you, you could go ahead and believe that if you want to…

Still, what if a spark coming off from the battery of a cellphone could cause petrol to set on fire?
No, it won’t. A car’s ignition spark could do that as well. Moreover, sparks in cellphone batteries are extremely rare events as compared to Ignition sparks, that happen thousands of times at every gas station everyday.
Also, some sources say that it needs a naked flame to set petrol fumes on fire. Even a lit cigarette isn’t capable to set petrol on fire. [Source]. But, I can’t confirm that. And I do not want to try to, by shooting a video of me doing that. Nor should you.

There is no credible evidence of an event where a cellphone has caused a blast in a gas station. Not even one!

Best way to stay safe

As far as science is concerned, it is highly unlikely that a cellphone could kill you at gas stations (but something else certainly can, read on to find out). I won’t tell you to go around talking on your cellphone when you are at a gas station. Your family members will sue me if you die.  But, there is no point in taking the trouble to switch it off before you enter a gas station.
So, better avoid talking, even if you know nothing will go wrong because science tells you so. Not everything can be explained or substantiated by science. Also, don’t try to explain it to the authorities at the gas station. No one will believe you. They’ll make fun of you and call you mad – Like the Roman Catholic Church back then KNEW Galileo was a mad person.
In short, no one knows for sure if phones cause these fires or not.

What is the point of this article then?

There you go! The point is to inform you and tell you that there are some things that can actually kill you at a gas station; like something as harmless as your Nylon windcheater! I’ve attached a credible evidence below:

So, the signs at a gas station should probably say, “No nylon” instead.
[Read more]

The Musty Old Book Scent

By Anupum Pant

Note: Since I’ve been getting quite a lot of visitors on this blog now, I think it would make sense to imbue a conversational tone in my posts. At least with enough readers, I won’t feel as if I’m talking to the air. So, instead of just creating a repository for archived trivia, I’ll take freedom to write my blogs in a more personal way from now on. You’ll have to wait for comments though (Tomorrow I’ll tell you why). Till then, you can get in touch through my about page.

The state of reading

No longer does a major chunk of human population has the drive or patience to go through a long chain of black letters. Instead, we prefer a stream of individual quick-visual-gags (memes). Others like to listen to audio books while they are slashing fruits on their smart-phones; some others like to ‘read’ info-graphics instead of blog posts.
A blog post without images is quickly discarded as an uninteresting one (like mine). Nevertheless, I believe, among those billions of people on the internet now, there is a tiny chunk of people who like to read. And a tinier part of that tiny chunk of people have come here to read this. I salute you. Salute me back on twitter.

That said, I’m not against info-graphics. I love them too. Also, it doesn’t mean I’m against audio books or memes.

So, if you’ve read past the two paragraphs above, I can safely assume, you are one of those who like to read. And I think we’ll connect well if I state – There is nothing like the smell of an old book; or a fresh book for some. Both ways, I think it makes sense to book lovers.

The smell according to experts

Unike Petrichor, the smell of old books does not have a specific name but you could call it “musty” in a good way. Experts need a much more detailed phrase to communicate the subjective experience. Back in 2009, the lead scientist who looked into what actually caused the smell described it as:

A combination of grassy notes with a tang of acids and a hint of vanilla over an underlying mustiness. [Source]

The pleasant aromatic smell is due to aromatic compounds emitted mainly from papers made from ground wood which are characterized by their yellowish-brown color. They emit vanilla-like, sweetly fragrant vanillin, aromatic anisol and benzaldehyde, with fruity almond-like odor. On the other hand, terpene compounds, deriving from rosin, which is used to make paper more impermeable to inks, contribute to the camphorous, oily and woody smell of books. A mushroom odour is caused by some other, intensely fragrant aliphatic alcohols. [Source]

What causes the book scent

A typical “old book” smell is a mixture of fragrant volatile substances and does not comprise of any single compound. So, all books do not smell the same, as materials and printing inks vary from book to book.

As a book ages, a compound called Lignin that makes up the cell walls of wood used to make paper, starts breaking down. It releases a smell that is a lot similar to Vanilla. In fact this is the same compound that makes Vanilla smell like Vanilla. This smell is a major contributor among several other scents that make up the characteristic book scent.
Other factors that may cause the scent to vary could be due to the kind of ink and chemicals used to process the paper.

Bring it home

It is a good thing for book worms who just can’t stop smelling their books. A creative enterprise, Lucky scent, sells it in a bottle – Paper Passion perfume – sold here.

If you prefer reading eBooks and at the same time also miss the sweet  book scent, you’ll find this interesting – Classic Musty Scent and New Book scent.

Another company CafeScribe shipped “musty-smelling” scratch-and-sniff stickers with every eBook order. I’m not sure if they still do it. This was around 6 years back.

Disclaimer: I’m in no way related to the above products, they aren’t affiliate links.

Space Oddities – Part I

By Anupum Pant

Note

During the past few days, I came across a couple of interesting things related to space, which I felt were worth sharing. Individually, none of them could have been made into a good long article. So, I thought of compiling a list of these amusing post-lets to form a single good read.

Also, in the words of Chris Hadfield: Since Space is profound, endless, a textured black, a bottomless eternal bucket of untouchable velvet and untwinkling stars, it is a place that holds infinite possibilities for me to collect more of such amusing ideas. Therefore, I have suffixed the title of this post with a phrase – Part 1 – that leaves an open possibility for other such articles. If you’d like to contribute snippets for the upcoming parts of this post, you can get in touch with me. [About Page]

Space oddities begin

1. A year in Venus:

Two facts. Venus rotates on its axis only once every 243 earth days. It orbits the sun every 224.64 earth days. But, both of these things put together mean that on Venus, a day is longer than a year. Or simply put, almost everyday is everyone’s birthday. Wonderful, isn’t it?
Also, Venus rotates backwards. So, the sun as seen from Venus, rises from the west and sets in the east. The rotation is so slow that it is unable to generate a magnetic field like earth.

2. International Space Station:

Floating around in the ISS, it is often possible for an astronaut to get struck floating in the middle of a room when walls are out of reach. To get out of such a position, astronauts have to be patient and have use the drafts of light crosswinds from fans or call for help for a physical push. – [Source]

3. Going from ‘a planet’ to ‘not a planet’:

Discovered in 1930, Pluto was originally classified as the ninth planet from the Sun. In the year 2006, this definition excluded Pluto and reclassified it as a member of the new “dwarf planet” category.
For the whole time during which Pluto was a planet, it did not complete even half a orbit. That means within half a Pluto year, it went from being called a planet to not a planet. Sad.
Today, Pluto is the tenth-most-massive body observed directly orbiting the Sun or the largest object in the Kuiper belt.

4. Visibility from space:

We have always been told that the only man-made object that can be seen from space is the Great Wall of China, but it is NOT true. You cannot actually see the great wall of China from space.
What you can actually see is the biggest structure made by living organisms (not humans) – The Great Barrier Reef.

5. Sun as seen from Mercury:

On Mercury, the sun appears to briefly reverse its usual east to west motion once every Mercurian year. The effect is visible from any place on Mercury, but there are certain places on its surface, where an observer would be able to see the Sun rise about halfway, reverse and set, and then rise again, all within the same day. [Sun’s unusual behaviour as seen from Mercury]

6. Flying on Titan is easy:

The largest moon of Saturn is a very peculiar place. It is the only known moon to have an atmosphere. But that isn’t all.
Its atmosphere has 1.19 times more mass than the earth’s atmosphere. Secondly, the gravity is far lower as compared to earth. This means, had there been humans on Titan, they would have been able fly in Titan by just flapping wings attached to their arms.

In the end, I’d like to leave you with two very interesting things. An inspirational comic by Zen Pencils and a revised version of David Bowie’s Space Oddity, recorded by Commander Chris Hadfield on board the International Space Station (I had this on repeat the entire time I was writing this article):

Lycurgus Cup – An Ancient Nanotech Marvel

By Anupum Pant

The concepts of modern nanotechnology must have been first seeded in the year 1959 by the renowned physicist Richard Feynman, but Romans were already doing it back in 300 AD (around 290-325 AD). About 1700 years back, utilizing the principles of Nanotechnology, Roman engineers had crafted a magnificent chalice – Lycurgus Cup (picture). Like the Prince Rupert’s drop, this is another glass marvel you should know about.

Side note: You can listen to the legendary lecture by Dr. Feynman on YouTube – There’s Plenty of Room at the Bottom, where he discusses the “possibility of synthesis via direct manipulation of atoms”, or Nanotechnology.

Lycurgus cup description

The Lycurgus cup was probably the first ever optical artificial [meta]material – Ruby Glass – engineered to have properties that may not be found in nature. Its unusual optical properties are something that makes it stand out.

Normally, the cup appears green, but if it is illuminated from the inside or lit up using a light placed behind it, it glows ruby-red; hence the name, ruby glass. This kind of glass is known as a Dichroic glass. Dichroic  literally means ”two colored” and is derived from the Greek words ”di” for two, and ”chroma” for color; in this case, the colors green and red.

The technology behind this cup baffled scientists for around 40 years (from 1950s to 1990s). It was only in 1990s that they figured out how it really worked. The goblet has been preserved well, and is presently at display in the British Museum.

Dichroic glass

Dichroic glasses do not use paints, dyes, or any coloring agents for the color. They are made using fine coatings on glass. The coatings themselves do not have a color, but rather they bend light to reflect colors like a prism does, to make rainbows.

These colors are visible due to the presence of very minute amounts of finely ground gold and silver particles in it. Romans could have included these powders unknowingly as contaminants or might have added them on purpose to achieve the very effect, we’ll never know.

Inspired by an age-old technology

NASA, in the 1950s, used a similar technology to fabricate a kind of glass that could selectively reflect light wavelengths. They achieved this by depositing a thin-film of metal on the glass.

With innumerable combinations of oxides, glass colors and patterns available, the possibilities to utilize this phenomenon for various useful purposes are endless.
The unusual properties of this cup have also inspired material scientists to create concepts for an invisibility cloak using modern nanofabrication technology. [Source]

I want to study interesting materials like these

If you think the Lycurgus cup, Wolverine’s claws and Aerogels (If you haven’t heard about it, you must definitely check this out!) are awesome. You can make a career in researching materials like these by making a foray into Materials Science and Engineering. Most good universities offer a course in it. It is a budding field, growing at a rapid pace, replete with real-world challenging conundrums waiting to be resolved.

Paper Bags Are Not Better Than Plastic Bags

By Anupum Pant

Plastic bags are terrible things. They choke animals, aren’t easy to recycle, do not break down, pollute our oceans, their production adds to our oil demands…and the list goes on. Some time back, we realized their ill effects and started taking steps that would encourage people to use bags made of alternative materials. Furthermore, several cities all over the world have banned the use of plastic bags.

Side Note: Interestingly, plastic bags aren’t actually banned for any of those reasons. They are banned because they tend to fly with the wind and move out of your trash fairly easily. They create a mess at places where they aren’t supposed to. That is the major reason as to why they are being banned.

In 2007, San Francisco banned plastic bags for supermarkets and pharmacies. Last year, it got expanded to all retail stores. Now, they have been banned for restaurant takeaways too. Also, the use of plastic bags at retail stores has been banned in several Indian cities. But the point isn’t to list out all the cities where it has been banned. There are many cities. I hope you get the idea…

When it comes to finding an alternative for plastic bags, paper bags seem to be the first choice. But it turns out, paper bags are not better than plastic bags.  Most of us underestimate their ill effects. Here are a few reasons that will make you realize why paper bags are not so good:

The point isn’t to make paper bags look bad or to make plastic look good or vice versa. It is to dispel the image of “the green paper bag” from our minds.

Reasons

Production: Production of paper bags all over the world involves cutting down 14 million trees every year. It is estimated that the production of paper bags creates 70 % more air pollution than plastic bag production.
Production of paper bags also results in much more water getting polluted when compared to the production of plastic bags. This is because their manufacturing process requires a lot of water.
Almost the same amount of petroleum used for plastic bags (for the material) gets consumed in making of paper bags to fuel the machines plus transportation.

Weight: Paper weighs a lot more than plastic. It is estimated that to carry the same number of paper bags it takes 7 times the transportation it takes to haul plastic bags. More trucks, more pollution, greater greenhouse impact.

Space: Paper bags occupy a lot more space than plastic bags do. This creates a problem at landfills that are getting filled to the brim already.

Recycling: Paper bag activists would say, plastic bags live for ever in the landfills. Yes they do, but there, paper bags do not decompose within a meaningful time period either. In fact, most of the stuff lives on for a long time in landfills. Landfills aren’t meant to make things degrade. With a paucity of oxygen and water in landfills, it is hard for things to decompose there. Even food items thrown away at landfills last for years.
That said, even plastic bags are almost never recycled.

Also they tear easily. As a result, more number of paper bags have to be used.

Solution

Both of them – plastic and paper bags – are equally bad. Recently developed biodegradable plastic bags are not any good either (they have a bigger carbon footprint). Carrying canvas, cloth or jute bags and saving them for future use is probably the best alternative.

If you liked this, you’ll probably also like – Understanding the Impending Helium Crisis

Drones beyond Amazon’s Drone Delivery System

By Anupum Pant

For a long time I’ve had this idea noted in a file and the hottest news from Amazon, linked to a “revolutionary drone accomplishment”, pushed me into writing it down. Since I cover topics ranging from a gamut of areas in the name of science, I thought, through this article, it would be appropriate for me to enable my readers see beyond an ongoing viral news topic – The unveiling of Amazon’s drone delivery. If you haven’t seen it already, you’ll find the video here. [Video] [details here]

Long before Amazon released its concept of Premier Air, 30 minute delivery, the idea – usage of drones for things you wouldn’t have thought of – has been tested or put to use in several related ways. Some of the reported tests and uses of drones are as follows:

Drones for food delivery: During June 2013, with an idea (read: PR stunt) that would inspire Amazon in the future, Dominos U.K. released a test video of the “DomiCopter”. In the video they showed an unmanned drone picking up a Pizza and delivering it to the customer without having to encounter any traffic in between. Slick! But, that isn’t all.
A year before this, Taco delivering drones as well as a Burrito bomber drones were also seen. All of them had gone viral. Yet, we still have a long way to go to see these delivery systems working legally.

Mosquito killers: A North Florida-based company that supplies drones for military missions, showed a drone that would speed up detection of stagnant water. As a result, helping the authorities cut mosquito breeding grounds in Florida.

Hover Cameras: Golf channel tested a new way of filming golf tournaments using drones this year. Besides that, we’ve seen drones being used for sports photography and journalism too.

Drone Waiters: To promote a new product, YO! Sushi, a London restaurant started using ‘flying trays’ for bringing burgers to their customers. These flying trays were nothing but drones carrying food trays. Also, it increased their speed ‘exponentially’.

Drone Constructors: This project dates back to the year 2010-11. Two architects, Garamazio and Kohler demonstrated aerial construction using unmanned drones. However, they demonstrated building process for a heavily scaled down version of a building using foam bricks. Nevertheless, it was an achievement in the year 2011, when QuadroCopters were just starting to get popular.

Although we have seen a lot of unusual uses for drones being demonstrated all around the globe (many more creative uses remain to be seen), we are yet to see their practical implementation; especially for projects like the Amazon drone delivery, which require drones to move around in a complicated airspace (in terms aviation rules).

Federal Aviation Administration (FAA) is actively working on rules for unmanned aerial vehicles. Still we won’t see drones moving around legally and freely, any time before 2015.

Everything else you’d want to know about drones: PopSci

Crocodiles Do Not Die

By Anupum Pant

Technically some animals like Alligators, Flounders and Crocodiles do not die. Instead of aging biologically, they just keep on growing physically. But why do Crocodiles all over the world keep on dying?

Senescence

In reality, we do see them dying. So, it would be right to say that they have the potential to live forever. To understand this we’ll have to first look at the term – Senescence.

Senescence is a term used to indicate gradual deterioration of the body with age. In simpler words, you could call it ‘aging’. Specifically, weakening of muscles, lowering mobility, poor sensory acuity and age-related diseases are signs of an animal showing senescence. Most animals exhibit Senescence. So, as we get older our deteriorated life parameters increase our risk of dying – Humans exhibit Senescence; Crocodiles do not.

Negligible Senescence

But, here on Earth, living with us, are a few species that exhibit Negligible Senescence. That means, they show almost no signs of aging, or they are ‘biologically immortal’.  Animals like these only die due to diseases, accidents or predators.

In animals, sea urchins, lobsters, clams and hydras are some examples. Vertebrates like a few Tortoises, Turtles, Crocodiles, Alligators, Rougheye rock fish and Flounders have been not observed to have aged biologically. That is the reason we had a 255 year old tortoise in the Kolkata zoo till the year 2006.

Among trees, probably the best example for an individual would be one Methuselah tree, which has been living for 4800 years. Its exact whereabouts are kept a secret to save it from us. On the other hand, a colony of a single tree has been estimated to be around 80,000 years old. It is also the heaviest known organism.

Side note: Tardigrades survive extreme conditions using a technique called cryptobiosis. They can die and literally come back to life.

Back to Crocs

Crocodiles have no such thing as old age. A 7-year-old crocodile is as good as a 70-year-old one in terms of agility and other life parameters. Aging has no effect on them. Although they can’t die of natural aging, they also can’t live forever. Nature has a way of killing them. The way they die is out of starvation or if they contract a disease.

They keep growing throughout their lifespan and they require more and more food. So, as they keep getting older they need a lot more food. When that amount of food is unavailable, they die from starvation. That is the reason we don’t see 1000 year old crocodiles that are 50 feet long. Still, see what this hunter shot in Australia in the year 1957 – It was an 8.1 m (28 feet) long crocodile!

huge crocodile in australia

Even if making human beings biologically immortal is an extremely controversial area, it doesn’t stop scientists. Scientists love to study organisms that exhibit negligible senescence because they’d love to find out a way to halt the aging process in humans by mimicking their gene structures. Probably, in the near future, we’ll find a way to demonstrate limitless Telomere regenerative capacity like Planarian Flatworms in humans.

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Miniature Sealed Self-Sustaining Ecosystem

By Anupum Pant
  1. 53 years ago, David Latimer (80) from Surrey planted an indoor Spiderwort in a huge glass globular bottle. He has watered it just once, in the year 1972. Since then, this self-sustaining ecosystem, has been sealed away from the outside world for around 40 years. In spite of being sealed away like that, the plant has grown very well in its own miniature ecosystem [Picture]. The only regular external energy it has received has been in the form of light. [more about this self-sustaining ecosystem and how it works]
  2. The EcoSphere or the Original EcoSphere takes it to the next level by introducing a shrimp in a similar setting. Like David Latimer’s bottle, this is also a self-sustaining ecosystem consisting of algae, bacteria and shrimp. The company that sells these things says that the shrimps would last for just around 10 years. Although, they also claim of 25-year-old spheres with living shrimps.
    10 years is little as compared to the ecosystem discussed in the first point. But we are talking about a pet living in a completely sealed space for 10 years, without demanding food, change of water or an appointment with the vet. For these little creatures it is probably a safe haven away from the dirty oil slicked oceans and predators; or probably just a prison.

These little biospheres are a far simpler and smaller versions of our big worlds. We are like the shrimp and the trees, our algae. This diagram explains in a simple way, how these artificial, extremely simplified versions of Earth work – [Diagram]

The shrimp and algae biospheres were discovered by two scientists, the late Dr. Joe Hanson and the late Dr. Clair Folsome. Later, NASA became interested in these systems. There got interested because:

  1. This tiny model of the Earth could add information to NASA’s Mission to Planet Earth program for studying Earth’s biosphere.
  2. It could help NASA’s research on human life support systems directed toward the construction of space stations for exploring our solar system.

Make it for yourself: Make magazine published a detailed DIY guide on how to create these living biospheres at home. [Link]
Carl Sagan’s Review of these biospheres: The World Arrived in The Mail.

Random Foliage Fact:

The world’s smallest park is located in the median strip of SW Naito Parkway, approaching esplanade along the Willamette River near SW Taylor Street in downtown Portland, Oregon, United States. Mill Ends Park, a 2 ft is a circular park, has held a place in the Guinness book of Records since 1971. It isn’t a park you can send your children to. – [Wikipedia]

Is There a Scientific Explanation for Everything?

By Anupum Pant

Today we have Dr. Eben Alexander III, an American Neurosurgeon and the author of a number one New York Times bestseller, in the house. Well, not really, but let us imagine he is here with us.

Background: Dr. Eben Alexander has been a member of the American Medical Association, a neurosurgeon and has taught at the Harvard school of medical sciences. He has spent a lot of time among scientists believing that there is always a scientific explanation for everything. But, one day, he experienced something that defied all scientific explanation. Turns out, there isn’t a scientific explanation for everything. Later he went on to write a number one New York Times bestselling book – Proof of Heaven: A Neurosurgeon’s Journey into the Afterlife.

Like logical open-minded Possibilians, let us read the book first, to start arguing against it. I haven’t read it yet. So, for now, I’ll stick to writing about just what I’ve learnt about it, rather than formulating theories against it.

The story: In the year 2008, Eben was affected by a severe case of bacterial Meningitis and fell into a coma for 6 days. His Neocortex showed no signs of activity. When he got cured miraculously (with just 2% survival chance) and returned from coma, he had experienced something out of this world. According to him, during the coma, he had experienced a vivid journey into the afterlife – kind of a near death experience.

The experience: When he fell into coma, he found himself in a dark and suffocating place for a very long time. Later a spinning bright light with a beautiful melody came in slowly and “rescued” him out of this agony. It took him to a fertile green land. Some points that he makes about this mysterious land:

  1. There was no need for a spoken word to communicate there. Every communication was telepathic.
  2. The instant you asked questions, you knew the detailed answers for those questions. (Something similar to the experience of Zen)
  3. The experience was more real than real-life. In comparison, real-life seemed like an illusion.

You can watch a 42 minute long interview here for further details. [Video]
I’d also suggest reading: Supernatural: Meetings with the Ancient Teachers of Mankind

Possibilianism

Although we’ve progressed a lot in science and technology in the past 400 years, there is a much more science doesn’t explain than there are things it can.

For instance, to make our equations sound right, we assume there is something out there we can’t touch, feel or sense in any way; we choose to call it dark matter. The most incredible thing – 90% of our universe is dark matter (and dark energy). That is too much to sweep under the rug. And we know nothing about it.

In the words of David Eagleman – “Our ignorance of the cosmos is too vast to commit to atheism, and yet we know too much to commit to a particular religion.”

Or in the words of Carl Sagan – “An atheist is someone who is certain that God does not exist, someone who has compelling evidence against the existence of God. I know of no such compelling evidence. Because God can be relegated to remote times and places and to ultimate causes, we would have to know a great deal more about the universe than we do now to be sure that no such God exists. To be certain of the existence of God and to be certain of the nonexistence of God seem to me to be the confident extremes in a subject so riddled with doubt and uncertainty as to inspire very little confidence indeed.”

A Flashlight That Uses Body Heat Instead of Batteries

By Anupum Pant

I talked about a light that utilizes the power of gravity to light up a few days back. This flashlight is a bit similar in a way that, it also doesn’t need any batteries. But the underlying mechanism it uses, is completely different.

The winner of this year’s Google Science Fair, in the age group of 15-16, was a 15-year-old girl from Canada, Ann Makosinski. In her project she created a flashlight that, instead of batteries, uses our body heat to light up. She calls it “Hollow Flashlight”

The flashlight uses 4 Peltier tiles to convert the temperature difference (between body and room temperatures) into energy. One side of the tiles is heated by our body heat and the other side is at room temperature. This temperature difference creates electricity using the Thermoelectric effect. The tiles used for this light need a minimum of 5 degree difference of temperature to work.

Peltier Tiles

Peltier tiles utilize thermoelectric effect to convert temperature difference into electricity. When there is a enough temperature difference, charge carriers move from hot area to the colder area. This separation of charges builds up a potential difference across the height of the tile. This potential difference can be used up for various things. In this case, it was used to light up LEDs.

Advantages: The amount of potential difference produced depends on the material. Peltier tiles are great because they are compact and they do not use any moving parts. Elimination of any moving parts eliminates wear and tear. They last long and do not need a lot of maintainance. However, their efficiency is not so great. So, they are used only where long life is essential.
The Voyager space probe and other deep space probes, where long life is of prime importance, use Thermoelectric generators (another image). The heat there is produced by a radioactive isotope. Implanted pacemakers which require long life also use it as a source of energy. All of them work utilizing the same effect – thermoelectric effect. The eco-fan, a wood stove fan, also uses the same effect in a very creative way.

Thermoelectric Generators have a very interesting history.

Human Echolocation – Seeing With Your Ears

By Anupum Pant

Bats can see, but Daniel Kish can’t. Due to Retinal Cancer (Retinoblastoma), Daniel has been completely blind since the age of 13 months. To save his life, both his eyes had to be removed at a young age. But, even with no eyes, he can see. He sees with his ears. People call him the real-life batman.

What? When Daniel was young, he started making a clicking sound with his tongue to understand his environment. Little did he know, at a young age, he had mastered Echolocation – A technique used by dolphins, and bats to navigate when there is no light. At the age of 11, only when a friend told him about Echolocation, did he realize what he was really doing.

How? By listening to the reflected clicking sound, Daniel is able to map the shape, dimension, depth and density of objects in his brain. Like we use light to see, he uses sound to create a 3D map in his brain. He has trained his visual cortex to process non-visual information. With this ability he is able to ride a bicycle around, effortlessly. Think about riding with your eyes closed. He does it everyday.

According to him, what he does isn’t rocket science. He thinks every one, if trained well, can do it. With a concern for blind people around the world who aren’t encouraged to use echolocation to move around, he started an organization where he teaches people how to do it. You can watch his TED talk here. [video]

Side note: In a Tamil movie, Taandavam, he was the one who taught Shiva to move around using echolocation.

If you think Daniel’s ability doesn’t talk enough about the amazing human brain. This video of David Eagleman talking about how our brain perceives the world, will probably make you appreciate it [the brain] more. Watch it till the end where he talks about these plug-in-brain devices.
In short, brain can learn to interpret various kinds of signals to produce an image.

[read more]

Dancing Drops of Water and Dipping Hands in Molten Metal

By Anupum Pant

When you sprinkle water on a hot pan, you’ll find that the droplets start dancing on the surface, as if there was no friction at all. From far, this effect looks a lot like water droplets on a lotus leaf (a super-hydrophobic surface). But, the physics behind this phenomenon is completely different. Read on to find out what is the mystery behind these dancing drops of water.

The Leidenfrost Effect

Why does this happen?
Unlike the drops on a lotus leaf, this happens at a particular temperature for a specific liquid. Different kinds of liquids display this effect at different temperatures.
For water, at a temperature when a small amount of water in contact with the pan gets heated enough to form a thin-film of vapor below the drop, water is no longer stuck on the pan (water sticks to some surfaces due to low surface tension). The drop has a thin vapor film below it which enables the drop to move around on the film. The formation of this vapor film is a continuous process, till the whole drop turns into water, one film at a time. This is called the Leidenfrost Effect.

Some liquids like liquid Nitrogen are extremely cold. At normal room temperature, they start boiling. A normal room’s floor is like a hot pan for liquid Nitrogen. So, it forms these dancing drops on a floor which is just at room temperature. You can try this yourself – If you can find some liquid Nitrogen, you can simply drop it on the floor and watch droplets moving effortlessly. They won’t stop moving!

Dipping hands in Liquid Nitrogen

The temperature of liquid Nitrogen is around -195 degree centigrade. It is one of the coldest substances and is used with extreme caution in industries and laboratories. If it touches you, your skin can easily get burnt. Yes, burnt – at extremely low temperature. It could probably also make the dipped limb useless for life. So, you shouldn’t try stuff with liquid Nitrogen at home.

But, it turns out, you can safely dip your hand in it for a small amount of time and return unharmed. Thanks to the Leidenfrost effect. Our hot-pan like hand – for cold liquid Nitrogen – makes a thin film of vaporized Nitrogen around the whole hand. This film, protects our skin from the ill effects of extremely cold temperatures. Still, there is no reason for you to try this. It has been done already.

The crazy duo from Myth Busters tried this with molten lead. It worked!  They, of course had to wet the finger with water – for the vapor film formation.

Water flowing uphill

Recently, an undergraduate research student group from the University of Bath found out a way to manipulate the movement of water on a specially designed surface, using this phenomenon. They found that machining ridges on the surface (and heating it) would make the thin vapor films under water droplets move in such a way, that they could use it to propel drops against gravity. They were able to demonstrate this by showing water moving uphill on a slope. It is enthralling to see it for yourself. I’ve attached their video below.