Category: Science and Tech

Prince Rupert’s Drop – Exploding Glass

By Anupum Pant

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What is it?

At first, a Prince Rupert’s Drop is an interesting yet harmless looking drop of glass with a long tail. It looks like a tadpole: [image]

It is no different from an annoyed person who refuses to let out his resentment – A slightest something might make him explode suddenly, but it isn’t easy to make him let it out. Confused? Read on…

Now, think of a glass drop that has immense amounts of potential energy stored inside it – It explodes (actually implodes) when the tail is disturbed, but it is impossible to hit it hard with a hammer and break it.

How?

A Prince Rupert’s Drop is formed when a drop of molten glass is suddenly dropped into a water bath. This quick cooling, solidifies the surface fast, while the inner part remains molten. Now, glass formed on the surface, being a poor conductor of heat doesn’t allow the inner part to cool quickly. When the inner part starts cooling, it tries to shrink and pulls the surface towards it. As a result, great amount of potential energy gets stored inside, in the form of stresses (stresses are seen using a polarized filter). This stored energy gets released when the tail is disturbed – It explodes into very tiny pieces of glass.

Toughened glass – a stronger variety of glass used in several places – also uses a similar technique to make strengthened glass.

On Wikipedia, a user asked about the possibility of utilizing the energy released from this explosion, being used to fire a bullet from a barrel. An interesting possibility, I must say.

The Name

Prince Rupert of Rhine did not discover the drops, but played a role in bringing them to Britain. He gave them to King Charles II, who in turn delivered them to the Royal Society for scientific study. Prince Rupert’s Drop was a widely known phenomenon among the educated during the 17th century – far more than now.

Watch it being explained better

Probably the best demonstration of this glass drop exploding is right here on the internet. Couple of months back, a YouTuber, Destin (Channel: SmarterEveryDay) posted a video demonstrating the physics behind it. He recorded  the progression of the explosive fracture using a hi-speed camera (at more than 100,000 frames per second) and calculated the speed of the fracture travelling through its tail (~ 1.5 miles per second). I’ve attached it below for you to watch.

Yakhchal – An Ancient Cold Storage Marvel

By Anupum Pant

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During a period when electricity was only a thing for the Gods, around 400 B.C.E., in the hot-arid deserts of Iran where temperatures touched 40 degree centigrade, ancient engineers had found a way to keep their ice from melting. Two thousand years back, a cold storage facility was being used. The impressive thing about it – it was clean and sustainable technology.

What are these?

Yakhchals, or ice pits of ancient Persia were the huge mounds (buildings hollow from the inside), which made it possible for Persians to store away the ice for summers, meat, dairy products, other food items and chilled frozen Faloodeh for the palace. Beside treats for the palace, the method of preserving ice was so professional yet simple that even the poor could afford it.

Structure and Working

The structure of these buildings above the ground is a large mud brick dome, often rising to about 60 feet in height. Below it are large underground empty spaces, up to 5000 cubic meter in volume. This space had access to wind catch and often contained a system of wind-catchers that could easily bring temperatures inside the space down to frigid levels in summer days. The structures were built so well that many still remain standing.

Working: The massive insulation built into the walls (due to the use of a special mixture of sand, clay, egg whites, lime, goat hair, and ash) and the continuous cooling waters that spiralled down its side kept the ice frozen throughout the summer by evaporative cooling (just like those mist fans). They also had a trench at the bottom to catch water from the molten ice and to refreeze it during the cold desert nights. The ice was then broken up and moved to rooms deep in the ground. As more water ran into the trench the process was repeated.

Geography: These were built in the areas that had suitable condition for producing natural ice or places where there was feasibility of water freezing during the cold nights.

Major architectural elements

  • Shading wall – To avoid direct exposure to sunlight and to let the structure remain cool in the shade.
  • Provisional pool – To supply water for evaporative cooling to take place.
  • and Ice reservoir – To keep the cycle going. Freeze > Melt > Refreeze at night and so on…

The end of Yakhchal (reasons)

  • Since the advent of electricity-guzzling freezers and air conditioners, unfortunately, the use of these architectural wonders has been considered as foolishness. This is probably the reason no Yakhchals are being used for cold storage anymore.
  • Desert storms, caused a lot of erosion to these structures, especially to the ones that were isolated in the desert regions.
  • Since Yakhchal’s ice formed in the open it was prone to combining with dust and resulted in contamination. That was another reason it wasn’t considered as a choice useful enough for modern purposes.

Hit the like button if you learnt something from this article.

Gallium Metal Melts in Your Hands

By Anupum Pant

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Atomic number: 31
Symbol: Ga

At first what seems like an uninteresting material, Gallium, in truth has, much more to it than meets the eye.

Gallium’s melting point

Like most other metals, Gallium is solid at room temperature (or liquid if it is too hot in your room). But, if it is held [in hands] for long enough, it melts in your hands, and doesn’t poison you like Mercury would. This is because of its unusually low melting point of (~29 degree Centigrade). It can melt by drawing heat from a human body which is normally at around 37 degrees.

Buy Gallium: This property, and the affordable price of $24 for 15 grams, probably makes it an appropriate gift for science geeks. They will love making mirrors at home by sticking it onto plain glass sheets.

Talking about a classic prank, it is advised to beware of the scientists who would offer spoons made out of Gallium to unsuspecting guests at a tea party. These spoons melt in hot tea and make it a potentially harmful concoction to ingest.

Since it isn’t poisonous like Mercury, Gallium is often mixed with Indium to further lower its melting point to -19 degrees. This makes it a safer option for us to use in thermometers instead of Mercury.

Interesting uses and compounds

  • Dilute sulphuric acid changes the surface properties of Gallium due to the formation of Gallium Sulfide on the surface. It no longer sticks that badly to glass, gets pulled up into a ball and starts beating like a heart when dichromate is added.
  • 98% of the world’s Gallium metal is used as Gallium Arsenide and Gallium Nitride, used in the electronic industry for making semiconductors, LEDs and high-speed circuits. In fact the laser in your Blu-Ray player is also made using Gallium.
  • Probably the most amount of Gallium used in a single place is at a Neutrino observatory in Russia. It houses around 57 tons of liquid Gallium.
  • With Silicon, Graphite and Molybdenum, Gallium is also used in ski wax to make skis more slippery.
  • Finally, nothing beats a metal that melts in your hands.

Tardigrades – Toughest Creatures on Earth

By Anupum Pant

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So, if you think elephants or cockroaches are tough, that could be because you probably haven’t heard about these amazing creatures called Tardigrades (picture).

What are Tardigrades?

Tardigrades, also known as moss piglets or waterbears, are oddly cute little animals that live in water and feed on moss. Their size ranges from 0.1 mm to 1.5 mm and they have eight legs (they walk like bears). The most extreme thing about these extremophiles is that they can survive almost anything (actually, they kind of die for a while with an option to come back to life later). Here is a list of things Tardigrades can survive. They can:

  • Survive without water and food for 10 years.
  • Waddle away in the vacuüm of space (for 10 days & get exposed UV radiation), come back and walk around as if nothing happened.
  • Survive 1000 times more radiation that would kill an elephant.
  • Live through extremely low temperatures (almost absolute zero) or high temperatures (~150 degree Centigrade)
  • Repair their own DNA after getting exposed to lethal amounts of radiation.
  • Survive pressures of about 300 Jumbo jets stacked on a person. (6 times more than the deepest ocean trenches)

Scientists love them

People at NASA and the European Space Agency love doing tests on them because they think, Tardigrades can help them understand the origin of life on earth (probably by supporting Panspermia). Also, scientists want to find out more about their extreme capabilities. If you ask them, if these things are aliens, they’ll tell you – “Probably not”

[Learn more about Tardigrades]

4D Printing is Here

By Anupum Pant

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We had just started getting comfortable with printing objects in 3D, and 4D printing is already here. Early this year, in the month of April, Skylar Tibbits, an architect, designer and computer scientist at MIT, gave a revolutionary demonstration explaining their advances in the field of 4D printing at a TED conference. This was an initial proposal and it got things moving at a rapid pace.

Side note: In the world of 3D printing:

What is 4D printing?

At first 4D printing sounds like a catch phrase, it isn’t really just that. 4D printing is actually 1D better than 3D printing and it aims at making objects out of a 3D printer, that can reconfigure themselves into useful shapes, on their own. For instance, think of a non-living stick changing itself into a 3D cube as time passes. In short, 4D printing will enable us to create living objects without any living cells, micro-processors, chips or batteries involved. Sounds simple enough, but the promises are nothing less than extraordinary.

In the TED talk attached below, Skylar explains how a string of plastic placed in water can turn itself into the letters MIT. But, this was something that happened back in April. Things have moved further.

A few days back, Researchers at the University of Colorado Boulder revealed a successful test of their 4D printing technology. They were able to print out flat objects using normal plastic combined with a smart material which was able to turn into a cube on its own. Cubes are just the start.

According to scientists, in the future, 4D printing will probably churn out smart car bodies that would heal automatically, smart soldier uniforms and advanced building materials. Imagine a camouflage material that changes to match the surroundings, that could be the future. Or a pipe that contracts and expands to move water without pumps. Or a building material that builds itself into a structure. 4D printing could probably best suited for building in an extremely hostile environment like space. The possibilities are endless.

But, let us not get ahead of ourselves. It is almost impossible to predict what we’ll actually see in the future. Things have just started to happen in the field of 4D printing. But, it sure looks amazing. What will you build?

Gomboc – An Object That Never Falls

By Anupum Pant

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There’d be hardly anyone among us who hasn’t played with a roly-poly toy during their childhoods. If you know it by some other name, you could think of it as a toy that never falls, no matter how hard you hit it, and sells in variants which look like this. That isn’t exactly what a Gomboc is, but you get an idea about what it does – It does not fall. For more, read on.

What is a Gomboc?

A Gomboc (Gömböc) is a mathematical 3-D shape which has only one position in which it can stand and is made up of a single material  of uniform density. If you try to make it stand in some other way, or try to knock it down, it moves back to that single stable position, gradually. When placed on its side, it starts rocking magically, gains momentum, straightens itself and gradually comes to rest in that single position. Here is a video of a Gomboc doing its thing.

A Gomboc is an object surrounded by a number of complex curves, it takes an immense amount of accuracy to get the surfaces right. An accuracy of  the orders of around 1/10th of a human hair’s thickness is required for it to work properly. For better, people have started 3D printing these complex shapes.

The world’s largest Gomboc was displayed in China in the year 2010 which measured around 3 meters in all directions.

Terrestrial tortoises, who use a similarly shaped shell to get on their feet when turned upside down, were using it long before humans had found a way to construct it. The first time we made it, was in the year 2006. Evolution got there first!

How is it different than a Roly-Poly toy?
A roly-poly toy usually has an internal counter weight made up of a heavier material. But a Gomboc is made up of a single material.

Uses: Use it as a paper weight or to gift it to your friend who is a math geek. Tortoises use it to save their own lives.

Where can I buy one?
You can get one for yourself from an official website of the inventors – Here.

Longest Continuously Running Experiment – 83 Years and Counting

By Anupum Pant

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An experiment so slow that a professor overseeing it, died without having seen the results for half a century! The Pitch Drop experiment, started by Professor Thomas Parnell of the University of Queensland in the year 1930, is the probably slowest science experiment and also holds the Guinness World Record for the world’s longest continuously running experiment ever.

What is the experiment?

It is an experiment designed to measure the flow of a solid looking piece (image) which is actually an extremely viscous liquid (actually a Viscoelastic Polymer) with a viscosity of approximately 230 billion times that of water. The name used for this class of extremely viscous liquids is, Pitch – Bitumen, Asphalt, Resin and Rosin are a few examples (not Glass). These things are so viscous that you can strike them with a hammer and see them shatter into sharp flakes (like glass), but it flows. The experiment is explained in detail, in the first few minutes of this radio show attached below. (the second half is pretty interesting too, but that is for some other day)

Other unbelievable materials previously covered in this series – Aerogels and Superhydrophobic surfaces.

Side note: The overseer of this experiment, Prof. John Mainstone actually lived through the drops of pitch falling three times, but unfortunately missed watching it happen every time (for 3 times in 50 years). In all, 8 drops have fallen since 1930.

  1. 1979 – He missed it because he wasn’t in the laboratory for the weekend.
  2. 1988 – Missed it because he went out for a tea break.
  3. 2000 – A camera was installed as a precautionary measure, the equipment malfunctioned; missed again!

He recently died waiting to see it in action. Since then, three web cameras have been installed as a fool proof measure to record the extremely rare event. You can watch it happening online here, although you might have to wait for several years to see it happening. (To confirm the live stream, look at that clock in in it and confirm with time here). There is also a time-lapse from 28th April 2012 – 10th April 2013 compressed into a 10-second-long video of the drop forming, embedded below.

A parallel experiment running at Trinity College, Dublin also wasn’t able to capture the rare scientific event on camera in spite of several drops falling since the commissioning of the experiment (1944). Finally, after 70 years of patient wait, on July 11, 2013 it was recorded on camera.

The Red Rain of Kerala

By Anupum Pant

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In the year 2001, between 25th July and 25th September, people from the Indian state of Kerela (Kottayam and Idukki districts) experienced a bizarre oddity – The Red Rain of Kerala. Sporadic heavy downpours of mysteriously colored water left the people of Kerala dazed. More recently, red rains were also seen in parts of Sri Lanka between 15th November and 27th December, 2012.

Yellow, Black and Green rains have also been reported several times since 1896.

Red Rain of Kerala – Studies

A study conducted in India showed that the rain was colored because these raindrops contained millions of spherical and oval red particles which had an internal structure. These things looked like biological cells. Initially, when scientists weren’t able to confirm the existence of DNA (a fact which has baffled scientists) in them, in spite of an internal structure present in the cells, some started claiming that the origin of these red particles was extraterrestrial, possibly, coming from an exploded meteor.

Later the mystery was solved, the presence of DNA was confirmed and a study, destroying popular media claims, concluded that the red rain of Kerala had been colored due to airborne spores originating from a type of algae. There was nothing alien about it.

The unusual color of the rain was due to the presence of a unicellular micro-organism belonging to Kingdom Protista, of the Phylum Euglenozoa, known as Trachelomonas. Trachelomonas was the main cause of reddish downpours in other regions of the world as well.

[Source: The Red Rain of Kerala]

Why Do Bad Eggs Float?

By Anupum Pant

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Instead of cracking up an egg which has been stored for a long time, to end up disgusted by the ‘rotten egg smell’, or the smell of a gas called Hydrogen Sulfide, a simple and a fairly well known way to check if an egg has gone bad, is to drop it in a glass of water and see if it floats. I found out about this first, from an article written at Frugal Living, and spent some time to confirm its claims – Bad eggs float.
If you take my word for it (you should!), it really does work. The article describes this three-point test to find out if an egg is good to eat.

  1. If the egg sinks and lies on its side, it is a fresh one. It is good enough to be eaten.
  2. If it sinks and stands up on a point, or is at an angle, it is good enough. You can still use it up for making hard-cooked eggs or bake it.
  3. But, if an egg floats, it needs to be discarded.

Why does this happen?

To understand, you’ll have to think of a chick – a young chicken.

Poor Chicks: Before chickens come out of the egg, they develop lungs and need oxygen to breath. Sitting inside a sealed egg, with no cords attached, for the chick to survive, oxygen has to come in from somewhere. For that, let us look inside.

Egg Science: The outer shell of an egg has two membranes under it. When an egg is laid, it is warm and starts cooling which contracts the inner part of the egg more than the shell and pulls the two membranes apart. As a result, air gets trapped in between the membranes (not enough air initially for it to float).

How does the air come in? The shell of an egg isn’t as simple as it looks. It has about 7000 tiny pores in that shell which let the air pass in and let the carbon dioxide pass out of it. This is how the chick breathes. And the reason, eggs boiled in colored water during Easter, get colored from the inside.

So, as there are pores present in the shell, bacteria enter the egg and start decaying the biological matter inside. This produces a smelly gas (and other gases too), Hydrogen Sulfide (also present in smelly farts). The gases from this decomposition, and the air from outside, keep increasing in volume as time passes.

Corollary: This is exactly what explains these floating bad eggs – Greater the amount of gas inside, older is the egg and the better it floats in water.

Side note: Egg shells and the two membranes inside have the ability to stop the invasion of micro-organisms and bacteria, but over time bacteria manage to enter.

Pope John XXI – A Man of God and Science

by Anupum Pant

Pope John XXI was the only pope ever, who had an illustrious medical career alongside his work as a theologian. He was also a fruitful writer, who wrote on subjects like logic, physics, philosophy and medicine. Before being elected as a Pope, he served as personal physician to Pope Gregory.

In medicine, he contributed towards great advances in female reproductive system and wrote about a few remarkably effective methods of birth control, during times when the Catholic Church condemned contraception. He also taught medicine at the University of Siena.

As men with thoughts ahead of their time are always labeled as heretics, John was also called a magician after his death. His death was announced to have been caused by “an act of god”.

The unfortunate accident

His brief papacy [of 8 months, 1276-77] ended with a tragic accident:

As a man of the science, he dabbled in astronomy and had a special room built in the papal palace. He loved spending hours in this special room, where he could observe the stars at night. It was in this room, where he sustained severe injuries, when the roof of his palace collapsed. He died six days later (on May 20, 1277).

Stephen Hawking’s interpretation

In 1277, Pope John XXI’s declared ‘laws of nature’ to be heresy because they conflicted with God’s omnipotence. Several years later, Hawking and Mlodinow, with their book, The Grand Design, caused quite a stir when they wrote – “Pope John was killed by the effects of the law of gravity a few months later when the roof of his palace fell in on him“.

Bonus Death Fact: Jack Daniel, the founder of Jack Daniel’s Tennessee whiskey distillery, died in very peculiar manner:

Unable to open the safe in his office, Mr. Jack kicked it in frustration. This blow broke his toe and infection set in, leading to his untimely death in 1911. – [Source]

10 Fancy Units of Measurement

by Anupum Pant

There exist a few unusual units of measurement which you must have never heard of, or would have never thought of them as units until now. Here is a list of 10 of the many fancy units of measurement.

Note: These units are not official. They’re often used for their humor value or for simplicity’s sake):

1. Car length – It is not a very unusual unit of measurement and is used normally to mention the braking distance of a vehicle. Deriving its length from a typical car’s length, 4 meters is referred as one “car length”. You must have heard one spy advising another spy to keep a 2 car length distance from a vehicle to avoid detection.

2. Nanoacres – A measure of area which is equal to about 4 sq.mm (4.0468564224 sq.mm exactly). It is the area of a single VLSI chip which is square in shape and measures 2 mm on each side. This unit is widely popular as a joke among electronic engineers – who often are known to make quips about VLSI nanoacres having costs in the same range as real acres.

3. Grave – It is a unit that measures mass and equals 1 kilogram or 1000 grams. Grave was set to be the standard unit of mass for the metric system, but it was replaced by kilogram in 1799. [read more about it]

4. Moment – Moment is actually something that was used to measure 90 seconds during the Medieval times. But for modern times, the Hebrew calendar’s definition of moment makes more sense. According to it, a moment is equal to 5/114 of a second or around 0.0438  seconds. [read more]

5. Jiffy – Jiffy is used popularly as an informal time in English. Think of someone saying “I’ll be back in a jiffy”. But, we’ve never thought of it as a unit. Also, every field has a different definition of Jiffy.

  • Early usage – 33.35 picoseconds or the time take by light to travel 1 cm.
  • Electronics – 1/50th or 1/60th of a second, depending on the AC power supply frequency.
  • Computing – Typically anything between 1 millisecond to 10 millisecond. Commonly: 10 ms.
  • Animation – The time interval between each frame of a dot GIF file or 1/100th of a second or 10 ms.
  • Physics/Chemistry – Time taken by light to travel 1 Fermi or 3X10^-24 seconds.

6. Dog Year – Based on a popular myth that dog’s age can be calculated in human years by multiplying it with 7. So, a single Dog year comes to around 52 days (365/7 – Days in a human year divided by 7)

7. A Bible – Used as measure of digital data volumes. It is like measuring the size of a disk in number of movies it can fit which I used in this article. A single Bible in uncompressed 8-bits, has around 4.5 million characters and 150 of them can be stored in a single CD. Hence, a bible can be measured to be approximately equal to 4.67 Megabytes. Similarly,  Encyclopedia Britannica and Library of Congress are used to represent much larger data volumes.

8.  Kardashian – Yes, it is named after the 72 day marriage of  Kim Kardashian to Kris Humphries. Of course, it measures 72 days of marriage. So, a 25 year marriage would amount to around 126.7 Kardashians.

9. Wheaton – Used to measure the number of twitter followers relative to the popular celebrity Will Wheaton. This became a standard when he had 0.5 million Twitter followers. Today, Will Wheaton himself has 4.88 Wheatons. I, for instance, with 210 followers, have about 0.00042 Wheatons.

10. Warhol – Derived from the widely used expression coined by Andy Warhol – “15 minutes of fame” – 1 Warhol measures exactly what you’d expect it to – 15 minutes of fame. Yes, it measures the amount of fame.
Consequently, 1 kilowarhol is equal to 15,000 minutes of fame or 10.42 days and 1 megawarhol measures 15 million minutes of fame or about 28.5 years.

 

Deal with Poverty or Go to Mars?

by Anupum Pant

Indian Space Research Organization (ISRO) launched its Mars orbiter, Mangalyan (Translation: Mars Craft) on November 5th 2013 with a hope to become the 4th such organization in the world, to step into Mars exploration. I must say, it is quite a fete for a developing country which has to deal with a myriad of other socio-economic menaces. Besides that, this mission also placed India above every other Mars mission ever, in terms of the total cost involved. Frugal engineering, has helped ISRO to go to Mars with low costs – with a mere $73 Million dollar budget, MOM (Mars Orbiter Mission) has become the cheapest mission ever to Mars. [silly comparisions to put this into perspective]

Side note: India’s other pioneering low cost endeavors – World’s cheapest car; World’s cheapest tablet and cheapest house.

But, this successful launch came with a throng of detractors, ridiculing India for not using these $73 Million to deal with poverty (or “clean feces off its roads”). Clearly, they did not think it through before making such comments.

  1. A nation’s economy is a huge and complex thing. Things aren’t as simple as, stop space exploration funds and divert them to tackle poverty. A number of things run in parallel. Also, every nation has its own set of problems and they don’t stop spending billions of dollars for technological advancement to focus only on social or economic issues. And, I’m sure that the government India is also taking enough steps to tackle its national issues with a firm footing on advancement of technological avenues like space exploration.
  2. The main part of this article: In contrary to what is popularly believed, money spent on space exploration does not nebulously float out of earth (on the other hand, distributing this money among the poor would breed complacency among them and cause the money to literally float out). It plays a major role in creating new technologies, products, jobs and businesses. Let us take the example of NASA here:
    Space exploration has led to development of many things that you use daily. There wouldn’t have been any computers, wrist watches, Velcro, cell phones, GPS navigators etc, if funds were never allocated to the “wasteful” space research.  Without this, there is a chance that you wouldn’t have heard of solar energy, cryogenics or even robotics. Also, several improvements in health care, energy and the environment are a result of research done for space exploration. [10 NASA inventions you use everyday].
    When you think of all this, $73 Million seems like an extremely small number. Remember, that this is also helping other businesses (vendors etc) flourish, which in turn are creating jobs for the poor and spurring innovation.
  3. Thirdly, The Indian Space Research Organization is a unique organization which has managed to stay the world’s most profitable space organization and has sustained on a minuscule budget of about $1 Billion. It relies on the Indian low-cost mantra to develop innovative technologies. As a result, this intelligent government venture has helped to create a profitable environment for space research. Hence, it isn’t a “wasteful” allocation of funds. Additionally, with its engineers living off a small salary ($20,000) as compared to American engineers ($100,000), we can definitely place our trust on an organization like ISRO – Like previous missions, they’ll make much more than $23 Million from this mission too. In other words, they’ll bring money in, not let it float out (better option for dealing with poverty, than just distributing it among the poor).

That said, 21 out of 51 missions to Mars have failed and it means that there is still a long way for this absurdly low-cost Indian mission [also a risky one] to be a completely successful one. So far, it is doing pretty good. We can only wait and see, what the end will be like.

The Standard World Map is Misleading

by Anupum Pant

Mercator’s projection

Most of us have this image of the world in our minds. This kind of a map, today printed in almost every textbook, known as the Mercator’s projection was first created to make work easy for navigators. Even Google Maps uses a Mercator-derived technique to project the world on a flat surface. But, Mercator’s projection has only deceived our idea of geographical area for all these years. For instance, it has led us into believing that Greenland covers an area which is almost equal to Africa (Also, have a look at the size of Antarctica there. Gosh!). The comparison of these two land masses actually looks like this.

According to this infographic, the actual size of Africa is larger than US, China, India, Mexico, Peru, France, Spain, Papua New Guinea, Sweden, Japan, Germany, Norway, Italy, New Zealand, the UK, Nepal, Bangladesh and Greece, all of them put together. In short, Africa is around 14 times larger than Greenland. Do not underestimate its area.

You can try playing with various combinations on this web app – map fight. Try these: Australia vs. Antarctica; US (contiguous) vs. Russia; and of course Greenland vs. Africa; they’ll leave you spellbound.

Why does this happen?

Since our planet is a sphere (an oblate ellipsoid really), to project it on a flat surface like paper, the actual shapes and sizes of landmasses have to be distorted to some extent. There is no way around it. Today, hundreds of different projection methods meant for various purposes are available, but none of them can exactly show the actual shapes & sizes of the landmasses. Some preserve the shape, some preserves the size, and others preserve direction…so on…

Mercator’s projection, the devious one discussed above, for example, uses a cylindrical projection. That means, it stretches the areas on a globe, which are nearer to the poles. Hence, the imprecise size of Greenland and Antarctica.

What is a perfect map, then?

Even after developing hundreds of projection method, we haven’t been able to spot the perfect method, nor will it happen in the future. But, to get the right sense of area, a projection method known as the Peters (also known as Gall-Peters projection) projection, is said to be the most accurate (in terms of area). It is also one of the most controversial maps.

Peter’s projection also has a huge fan following in spite of its terrible appearance.

Bonus Map Facts:

  1. National Geographic started using the, good looking, Robinson projection from the year 1988, and used it for ten years, then, it moved to the Winkel-Tripel in 1998.
  2. An ideal Mercator’s projection would have infinite height if it doesn’t truncate some area near the extreme poles.
  3. Peters pointed that the Mercator’s projection made developing countries seem much smaller than they actually are. He said that these errors made the struggles of developing nations near the equator looks much smaller to the developed world.
  4. XKCD published a comic on projections – “What your favorite map projection says about you.” 977. [see the explanation here]

Super-hydrophobic Surfaces are Unbelievable

by Anupum Pant

It is almost impossible to get a lotus leaf wet. If you try pouring water on it, you’ll see that it will form little beads of water and quickly roll out of the leaf. This happens because a lotus leaf is super-hydrophobic. Although, even your raincoat doesn’t get wet, it isn’t super-hydrophobic. Water sticks to on the surface of a raincoat. Super-hydrophobic surfaces don’t let water stick on it. But how do they manage to do that?

The science – Contact angle

Every time a liquid sits on the surface of a solid, the liquid drop forms an angle of contact as shown below. Things that don’t get wet have a contact angle greater than 90 degrees and the ones that get wet form an angle lesser than 90 degrees. The greatest angle is always less than 180 degrees. Theoretically, a perfect bead will form at that angle.

Super-hydrophobic surfaces are able to push this angle to as high as 175 degrees to form almost a perfectly spherical water droplet on the surface (due to very high surface energy). This ensures that as soon as water falls on it, it rolls away. The surface never gets wet.

Advantages

Imagine things never getting wet. How about a completely water resistant phone, a shoe that never gets dirty, shirts that repel ice-cream and wind-screens rolling away rain droplets like magic? All these things are possible, if they can be converted into super-hydrophobic surfaces. [They can be. Watch the video below]

Besides repelling water, these surfaces can also prevent formation of ice, resist corrosion and prevent bacteria from sticking to it. The possibilities are endless.

How to do it artificially?

Today, we have managed to develop several artificial methods to make almost any surface super-hydrophobic. Commercial services like NeverWet, HydroBead and Lotus leaf coatings are making a roar in the market by offering amazing promises. Normally, they use simplified spray coatings to convert normal surfaces to super-hydrophobic surfaces, so any one can use them, anywhere.

Things You Should Know About Farts

by Anupum Pant

Flatulence, an expulsion of intestinal gas, commonly known as fart, is something no one likes to talk about because it is considered a taboo, almost everywhere in the world. To top it all, some might even sideline this article by tagging it as a vulgar one. In my defense, that is exactly the purpose of my blog – To talk about things no one will talk to you at school (or anywhere else). Our inclination here is to learn.

Avoid shaming others for it.
Firstly, it is important to know that, irrespective or gender, race or nationality, farting is an invariable result of digestion and everyone does it about ten times a day. Even dead people fart. So, by shaming someone for letting it out in an accidentally loud way, is hypocritical on your part; it [shaming others] can be avoided. As Eric Auld says, it is okay to fart.

Do not hold it.
Secondly, it is not okay to hold flatulence to avoid embarrassment. Doing this, has the potential to cause a life threatening condition called diverticulitis. This disease is prevalent among the urban people for obvious reasons. Urban people have a greater societal pressure to hold it, than a free-living farmer. To give you an idea, 30 million Americans are currently suffering from it (old data).

What is it?

Principally, it is a mixture of gases taken in through mouth with food and gases which are produced while digesting food. The composition of ‘gas’ varies with, people, the kind of bacteria in their stomach and the kinds of food they eat. Oftentimes, people don’t hate their own smell; at the same time, detest the gases coming out from others. A fart is comprised of gases like Hydrogen, Nitrogen, Carbon dioxide, Oxygen and Methane. It smells bad due to the presence of Hydrogen Sulfide, Mercaptans and Ammonia. And the presence of inflammable gases like Hydrogen and Methane makes them inflammable.

Farts in a humid environment can seem worse because during such conditions, our sense of smell is enhanced. This is the reason why farts smell worse in a shower.

Minimizing the effect

Although, there is no way you can end this trouble from your life, you can adjust your diet a bit to prevent this from happening in excess. Beans, cauliflower, corn, eggs etc are some foods which are notorious for producing gas in your body. These foods release a relatively greater amount of gas than other foods while getting digested in the intestines. Cutting their intake can help (of course consult your doctor first).

Another way to lower the problem is to prevent the odor from troubling others. This can be done by using products like “odor-proof undies”.

Coughing or suddenly moving your chair could help you to mask the sound.