Meet a 12-year-old Scientist – Peyton Robertson

By Anupum Pant

Today we meet a 12-year-old ‘man’ who has been on an invention spree since he was just 8 years old. If I may use a pop-culture reference, this adorable boy is a Sheldon Copper in the making.

Peyton Robertson from Fort Lauderdale, Florida, presently has 3 patents pending:

  1. A case (box) to maintain a resting golf ball’s temperature – Peyton loves golf. And on one cold day, when he observed that his golf balls weren’t bouncing the way they should have been, he, instead of sleeping on the problem, thought of finding a solution.
  2. Retractable training wheels: This one is a pair of retractable training wheels connected to a lever mechanism on the handle of a bicycle – you press the lever and the training wheels rise up. A perfect solution for kids who want to experience the joy of biking while they are learning to ride. He invented this to help his sister when she was learning to ride a bicycle. Today, bike manufacturers are flocking around him to buy his idea.
  3. A sand-less sand bag: When the super-storm Sandy struck 24 US states in October last year, the entire eastern sea-face from Florida to Maine suffered great losses. It caused a damage of around $65 billion. Peyton saw this and figured that the sand bags that were being used for flood defense contributed to a lot of inefficiency. These bags were 40 pounds each; moving them from one place to another was tough. But they had to be heavy to stop the water. Besides that, the bags when stacked left undesirable gaps in between, which caused a leakage. Peyton felt a need to contribute to make people better equipped for floods in the future.

His solution – A sand-less sand bag – is better than the traditional bag in two ways. Firstly, weighing around 4 pounds, it is significantly lighter than the sand bag. It contains a mixture of, a polymer that expands when it comes in contact with water, and salt which makes it heavy when it wets. Secondly, this bag comes with an interlocking fastener which keeps the bag in place when it expands – Removing any gaps which could create a leak during the floods. Moreover these bags can be dried later to be reused.

The witty sandbag made him the youngest ever person to win the Discovery Young Scientist Challenge. The prize – $25,000 and a trip to Costa Rica!

In an interview with TED blog he said:

Failure is progress and a normal part of the process. Whether it’s science or life, you have to start, fail and just keep pushing. In a football game, time runs out, and a golf match ends after the last hole. But when you are working on something and it doesn’t work, you just extend the game – and give your experiment or your prototype another go.

It was a delight to watch the charming boy speak on The Ellen DeGeneres Show. Sadly, that video no longer exists, here’s a replacement with the guy’s own pitch:

Benford’s Law Will Make You Wonder For a While

By Anupum Pant

Benford’s law is a fairly simple law to grasp and it will blow your mind. It deals with the leading digits of numbers.

So, for example, you have the number 28 – The leading digit for it would be 2. Similarly, the leading digit for 934 would be 9. Just pick the first digit. Now…

In a data set you’d say – it is common sense to assume that the probability of leading digit one (1) appearing would be more or less equal to that of leading digit nine (9).
As there are 9 possible leading digits, you’d think that the probability of each leading digit would compute to something around 0.11
You’d imagine that it would be normal to assume a nearly straight graph of probability vs. leading digit. But this isn’t true.

Benford’s law says

Your common sense fails. What actually happens is that the likelihood of 1 appearing as the first digit in a data set is around 0.3
For the following digits, the probability keeps decreasing. And the following graph appears. You’ll see that the numbers rarely start with nine!

Benford2

When does it work?

This counter-intuitive result applies to a wide variety of natural data sets. It works the best if your set spans quite a few orders of magnitude. Natural set of data like stock prices, electricity bills, populations, which could range from few single digit values to several digits work the best. Other data like the heights of people doesn’t work because it does not span “quite a few orders of magnitude”. Also, artificially tampered data fails to comply because the person who tampers does the same mistake everyone does. Therefore, Benford’s law is also used to detect frauds in data.

Example:

  1. Count the number of data points in a data set which have the leading digit 1 and write the number next to the number 1 in a table.
  2. Then, keep repeating it for all the numbers 2, 3, 4 and so on.
  3. Calculate the probabilities for each. In the end you’ll be left with a table that would look something like this. (Probability = Number of Data Points for that  digit / Total Data Points)
Leading Digit Digit Probability
1 0.301
2 0.17
3 0.125
4 0.097
5 0.079
6 0.067
7 0.058
8 0.051
9 0.046

How does it work?

Watch the  following video for the explanation:

Try it yourself: [Kirix]

Gompertz Law – The Dreadful Law of Death

By Anupum Pant

There is no astrologer in the world that can tell you for sure if you’ll die this year or not. But, thanks to Gompertz Law, if you ask me, there is one thing I can tell you for sure – Whatever may be the odds of you dying this year, in 8 years, the likelihood of you dying will double.

This dreadful law of death was named after the first person who noted it – Benjamin Gompertz, in the year 1825. The law rests on a general assumption that a person’s resistance to death decreases as he ages. The Gompertz Law of mortality, put simply in a sentence would compute to this:

Your probability of dying during a given year doubles every 8 years.

It is amazing, and no one knows how it works exactly. Why does nature pick the number 8, to double our likelihood of death? We’ll probably never know.

There is a whole table which relies on census data, and statistically notes the probabilities of people dying at different ages. And when it is plotted on a Probability of death vs. Age graph, you get an exponentially increasing mortality rate with age. That is death coming faster as you get older.

Gompertz Law can be verified for real-life data – the 2005 US census data. The following graph and the probability vs. age plotted using the law match almost perfectly. Amazingly, the law holds true for several other countries too.

gompertz law graph

That means, the probability of me, a 25-year-old dying during the next year is very small — about 1 in 3,000. When I become 33, this probability will grow to something around 1 in 1,500. In the next 8 years, the probability of me dying will be 1 in 750, and so on…At the age 100, the probability a person’s death will be about 1 out of 2 – fat chance of successfully moving on to 101!

Theoretically, using this data, it can be said with 99.999999% certainty that no human will ever live to the age of 130 (of course only if medicine doesn’t start tampering with human genes, or some other artificial factor). There is one thing for sure – there is almost no chance that you are going to beat Mr. Ming.

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15 Craziest Ways to Charge Your Phone [Part 1]

By Anupum Pant

What was considered a remarkable method some years back, today, using solar cells to charge your phone has gone too main stream. How about doing it with a flamethrower, or moon light maybe? Brace yourselves up for an unusually long and interesting compendium of some the most craziest things you could use to charge your phone. And of course, I thank science for bringing these things into the world.

Here, I’ve compiled a few crazy ways to charge your phone. Feel free to contribute any others you know and point out ignorance in the comments section below.

Note: The absurd methods I’ve collected here may set your phone on fire, or worse. So, please do not try them at home. If you do, and succeed in melting your phone, do not blame me for it. Or rather, read whatever you can find about it, before experimenting.

1. Moon Light

What if photovoltaic cells were so efficient that they could draw electricity from the moon-light all night? Well, here you go.
A German architect named André Broessel worked on a project for 3 years to put together a novel process of drawing solar energy that would be far more efficient than the existing ones. In the end, he came out with this perfectly spherical glass ball filled with water, which can use up whatever minimum light it receives to create electricity. So, on a cloudy day or even at night (using light from sun reflected by the moon), with this set up on your terrace you’ll be making electricity 24X7. Moreover, you don’t have to worry about the sun or moon moving in the sky. It comes with a tracking system which adjusts itself to capture the light.
It is basically a super-refined version of one of those solar death rays I talked about a few days back.

Your phone is small; this is something which could make whole skyscrapers go off-grid. So, go and give it away on Indie GoGo whatever little you can contribute to the project.

2. Hand Cranked

ku-xlarge

With the amazing moon light capture device for the future, now let us move on to this hand cranked variant of a mobile power bank, you can buy right now. For everyday use, this backup battery pack comes with a hand turbine power generator that will keep you all charged up all the time. It contains a rechargeable 2000 mAh lithium battery for power which can be cranked up for about a minute to create 4 minutes of battery life out of thin air. If you were expecting free energy, in the end, it is important to know that with this device, to bring your phone from completely dead to 100% battery would require nearly an effort equivalent to a full-body workout.
Also, I found a cheaper variant, which works on a similar principle but isn’t documented well on the internet. It got “India talking” for obvious reasons (costs only $7). They call it the RotoCharger.
If you are looking for an easier way, read on.

3. Lightning

Yes, the same thing that Raijin (雷神) drops on earth 100 times every seconds,  is 3 miles long and carries a current of 10,000 Amps at 100 million Volts, was used to charge a Nokia phone. Last year, scientists from the University of Southampton teamed up with Nokia to try and harness the energy of a lightning bolt to charge a phone. They succeeded in charging a Nokia Lumia 925 with a 200,000 volt lightning bolt, created in the laboratory.

Here is a YouTube video posted by Nokia’s official YouTube channel demonstrating the same:

4. Wind/Air

IfanBlog

In a recent development, researchers at the University of Texas at Arlington have developed a micro-windmill made up of a nickel alloy. It is so small that you could put 10 of them could on a grain of rice. According to them, in the future, hundreds of these tiny windmills could end up in the housing of your smart phones and power them using wind energy.

Earlier, undergrads from Nirma University of Ahmedabad in India had developed an eco-friendly headgear that used a little fan for harnessing wind energy. As it also uses solar energy, at just $22, it is indeed a great device for charging your phone on the move.

Talking about devices that can harness wind energy on the move, the iFan is one ingenious device that comes to mind. It can be mounted on a bicycle or can be held outside a car window to charge your iPhone.

Lung Power: Talking about air, there is this clever gadget that transforms the air from your lungs into energy to charge your phone. Created by Inventor Joco Paulo Lammoglia, from Rio de Janeiro, Brazil, AIRE mask can harnesses the wind power created by breathing and converts it into electricity to run anything from your iPod to your mobile.

5. Body Heat

body heat phone charger

Working on the same principle as the flashlight without batteries, a jacket developed by Stephen Beeby, Professor of Electronic Systems at the University of Southampton, uses thermoelectricity to power your phone. According to the professor, you have to sleep for quite some time to find a fully charged phone:

Eight hours in the sleeping bag, roughly speaking, will provide 24 minutes of talk time and 11 hours of standby time. That’s assuming the inside of the sleeping bag is 37 degrees – human body temperature.

6. Sound

soundcharge tee

In theory, talking to your can generate energy to charge a phone. Although to win a substantial amount of battery life from this prototype, you’ll have to scream at the top of your voice. According the lead researcher, Sang-Woo Kim of Sungkyunkwan University’s nanotechnology institute who invented it, it requires 100 decibels to generate 50 milli-volts of electricity. That’s enough to give a Smartphone battery a little support, is still far from what a normal wall plug charger could give you. The researchers are really confident about taking this technology to the next level and making it viable for practical use.

Another one: GotWind’s Sound Charge t-shirt converts sound into electricity. A person wearing this can charge a device battery while thrashing around in the mosh pit. A textbook sized panel of Piezoelectric film in the front acts like a microphone. It absorbs sound waves and converts them into electricity through the compression of interlaced quartz crystals. This electricity is then fed into an external power bank. [Video]

7. Shake

There was a time when kinetic wrist watches were the fad. Today, how cool would it be if you could shake up your phone for an extra boost?
So, Researchers at Virginia Tech tried to make a charger that draws energy from a piezoelectric material and could convert vibrations into energy. They say, when it is done, simple taps on the phone screen or keyboard would produce enough energy to deal with emergencies.

But, long before the researchers announced this, the world had seen nPower PEG. Apparently, it is the world’s 1st human-powered charger for hand-held electronics. It gives you access to backup battery power even when you’re away from home by using the energy you generate while walking, running, or biking to charge your smart phone, music player, GPS, or other devices.

Ah! I’ve written too much for the day. Remember to check back next week for the 2nd part of this post. 

Moving Light Captured on Camera

By Anupum Pant

The speed of light

In vacuüm, light travels 299,792,458 meters in a single second. In other words, in a single second it travels 186,000 miles. To establish a  perspective, if I could move that fast, I would circumnavigate the world in 0.13 seconds. A hypothetical jet plane would take more than 2 days to do the same. In short, it is fast. It is the fastest – Nothing beats light.

If you try to record moving light on a home camera, you’d fail miserably. That is because normally they can roll only about 30 to 60 frames per second. In fact, you’d not even be able to capture a fast-moving ball without motion blur, forget recording moving light. To record fast things you need fast cameras that can roll several thousands of frames every second.

In the past, high-speed-cameras, rolling film at thousands of frames per second have been able to record bullets moving in slow motion, bubbles bursting, people getting punched and what not! MythBusters use such cameras for almost every experiment they do.

But light travels a million times faster than bullets. Till the year 2011, to capture moving light on film was considered an impossible feat; and then, a team from MIT media lab invented this.

A 1,000,000,000,000 FPS camera

A camera that can record at a speed equivalent to a theoretical one-trillion-FPS camera was invented by a team at MIT media labs in the year 2011. This camera can record light moving through space, in slow motion! To look at what it can do, you’ll have to watch the video below. In the video, the researcher explains its mechanism in detail.

It is theoretically impossible to craft a mechanical device that can roll film at such extremely high speeds. To tackle this physical limit, these geniuses invented a whole setup containing several cameras sensors that work together to make this feat possible.

Note: In reality, the camera doesn’t record the footage of a trillionth of a second. It is a composite video of lines of different pulses of a laser recorded and stitched together. The time it takes to compile enough data for the video, is more than what it takes the light to travel from one end to another.

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The Day When The Whole World Saw Auroras

By Anupum Pant

The record of geomagnetic storms has been kept for around 160 years now and among all the flares observed till date, the Carrington event was the most powerful ever.

The Carrington super flare

The 1859 Solar Superstorm, or the Carrington Event, was an enormous magnetic shock wave sent towards the Earth by the Sun. It caused a massive disturbance in Earth’s magnetosphere. The effects of this super flare observed here on earth were literally awesome.

Effects

Story: While studying sunspots on Sept 1, 1859 Richard Carrington, an astronomer observed a blinding white light that appeared over local parts of the sun. And 5 minutes later, it was all gone. As if nothing had happened.

Before dawn the next day, skies all over planet lit up. The lights in the sky were so brilliant that people said they could read text like they could read it in the daylight. Red, green and purple auroras pulsated even at  tropical areas like Cuba, Bahamas, Jamaica, El Salvador, and Hawaii. The whole world saw auroras that day.

An American newspaper reported:

The phenomenon was very similar to the display on Sunday night, though at times the light was, if possible, more brilliant, and the prismatic hues more varied and gorgeous. The light appeared to cover the whole firmament, apparently like a luminous cloud, through which the stars of the larger magnitude indistinctly shone. The light was greater than that of the moon at its full, but had an indescribable softness and delicacy that seemed to envelop everything upon which it rested. Between 12 and 1 o’clock, when the display was at its full brilliancy, the quiet streets of the city resting under this strange light, presented a beautiful as well as singular appearance. – from Wikipedia.

Telegraph systems all over the world went out of control. Some discharges shocked telegraph operators and fires were reported at few places. Due to the temporary disturbance in the magnetic field, current was induced in the wires and machines disconnected from the batteries still allowed telegraphs to be sent.

Luckily in those times, we did not have any satellites, or more importantly, any humans up in the sky; they would have been fried.

What if it happened now?

Today, electronic technologies have become far more refined and have moved into the common man’s life. If an event of such sizes takes place now, power lines and long-distance telephone cables could get seriously affected by it. A similar event of a little lesser intensity happened in 1989 – It was Friday the 13th and several ill effects were experienced.

Radar, cell phone communications, and GPS receivers could get disrupted. Humans in space would be in great danger. Astronauts, after having observed a flash of light would have only minutes to find shelter – probably a properly shielded spacecraft.

Scientists say that there is little we can do to protect our things from a storm like this. It is estimated that re-occurrence of a Carrington class event today, could cost the world economy around $2.6 trillion.

If you liked this article, do subscribe to my daily newsletter to receive the articles in your mail everyday. What could be better way to make sure that you learn at least one new thing everyday.

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Brazil Nut Effect – Saving Lives in Snow

By Anupum Pant

The effect

Have you ever noticed that the larger nuts (Brazil Nuts) in your Muesli boxes or bowls end up on the top? It turns out, scientists have a name for this effect. They call it the Brazil Nut effect or Muesli Effect. Well, actually scientists prefer to call it Granular convection.

If you haven’t heard of Muesli, think of a bowl full of random nuts. Or Indians could think of the Haldiram Navratan Mix – A popular snack mixture that contains several types of fried ingredients in various sizes. Irrespective of the kind of snack or even a mixture of sand you think of, it shouldn’t come as a surprise to you that the smallest of particles always end up at the bottom of a mixture when shaken enough.

If you think there is nothing cool about this effect, you are probably picturing it wrong. Watch this video where, on shaking, big marbles magically come on top of a rice heap.

Research studies

Normally, isn’t it common sense to assume that the largest (presumably the heaviest also) particles should end up at the bottom? Such is the counter-intuitive motion of particles in granular mixtures that it gives scientists a great insight about the real physics that goes inside. So they love to study more about this phenomenon.

This effect is so popular among scientists that some have studied it in martian and lunar gravity simulations. To do this they had to go on a plane that moves in parabolic arcs to simulate a specific reduced gravity conditions – A reduced gravity aircraft.

It saves lives

In the snow, sport persons or people taking part in extreme sports carry an avalanche safety bag with them.  On a free ride down a snowy cliff, sometimes these people get caught in avalanches. Being on top when the avalanche has settled helps the rescue teams find them. The avalanche safety bags are huge when they are inflated. And thanks to the Brazil Nut effect, these big bags attached to the sports person, often end up on the top.

The Reverse Brazil Nut Effect

And sometimes there is a reverse Brazil nut effect. Meaning, if certain conditions are met, the largest nuts can end up at the bottom of a container.

The shape of the nuts, shape of the container and the relative sizes of nuts plays a role in determining if the effect reverses or not. As a simple example, using cone shaped container reverses the effect.

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Halo Effect – Helping You Make Poor Judgements

By Anupum Pant

Despite being well aware of the adage – “Don’t judge a book by its cover” – our not-so-smart-brains fail us on this every time. Unknowingly, humans are prone to the Halo effect. And they’ll even deny that this harmless looking effect was what led them to make a wrong judgement about someone or something.

Halo Effect: In simple terms, we create a whole fake image about anything in our minds, based on a single trait.  For instance:

  1. Don’t you thing Steve Jobs must have been a perfect human being in person? I’m not saying he wasn’t, may be he was. Assuming you never met him, what made you construct that image of his, in your mind? Probably his warm, friendly presentations. Or it is even possible that the seemingly flawless physical designs of Apple products did that trick. Often marketers use this effect to create a warm image of themselves in the audience’s mind by saying little of any substance.
  2. By the good looks of this website, which I’ve made sure are really good, you’d unknowingly judge it as a page presenting you with quality content. You might do this without even looking at the content. May be it really is good content in this case, but it isn’t always.
  3. A well known brand that releases good commercials is often believed to be a quality brand. You’d feel no pain in shelling out thousands of bucks for a simple pair of shoes, saying it is a good quality shoe and will last long. There is a chance that you’ve never really looked deeper into the quality of the shoes this company makes. You’ll simply trust them because of the world-class commercials they come out with – which of course are only a result of outsourcing of creative work to a professional company. Which is not to say that the company really does make poor quality shoes. May be it doesn’t. But you just made a snap judgement without enough information.

The name Halo effect:
Its called the Halo effect because of this general tendency among us to make a snap judgement about the overall good traits of a person by just looking at a halo painted on top of their heads (one good trait of their’s).

But here is the catch, it works both ways:

Suppose you dislike one thing about something, you’ll build an image of “bad” around it, in your mind. This has been tested widely and it is true. People unknowingly do it and don’t realize why they did it. Moreover they’ll deny that it affects them.

Suppose you go to a restaurant and see that there is nothing fancy inside – naked tables, poorly dressed waiters and shabby flooring – you’ll never expect tasty food coming out of its kitchen.

Same thing happens with poorly designed websites. The content isn’t considered credible if they don’t look good. That is one reason, I take time to muster up good-looking images for my featured section.

[Read more]

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Cryoseism – Frost Quakes in Canada

By Anupum Pant

Note: Remember that the ideas I share on this blog everyday don’t magically get formed in my brain. I’m no genius. What I am, is an average curious person. I read about things and then I experience a burning urge to find out more. I think of this blog as a record of everything I learn – kind of a public journal (NOT an Official gazette). I hope it helps you in some way. If it does, do mention it in the comments section below.

The Polar Vortex

For the past few days, in most of the things I’ve read, I’ve come across a reference to the extremely cold polar winds (incredible pictures) people are experiencing in the United States and Canada. 50 states have gone sub-zero in the US. Similarly, Canada is experiencing even  colder temperatures. While some have decided to stay at home, others are tossing boiling water to try out the Mpemba effect in the open. 8,500 miles away, almost sweating in a room with temperature 30 degrees (Celsius) above zero, I’m learning about new frost related phenomena that I had never heard of before.

My sympathies to the people who are suffering this bitter cold wave. 

Cryoseism

Thanks to the frost, I’m coming across some of the never-before-heard things that are appearing in the mainstream media. One of them which I came across yesterday was – Cryoseism or an Ice-quake.

People in Toronto woke up to loud sounds and rattling objects yesterday. People thought that an earthquake had hit Toronto. It wasn’t an earthquake. What they were experiencing was an Ice quake or Cryoseism.

What caused it?

Expanding water can be an extremely powerful force. It can break the strongest materials ever made. Industrial valves and pipes made of thick steel walls can be fractured by water as it expands. In this case, the earth got split open by it.

Unlike most other liquids, water expands on it freezing. Thus, ice formed is of higher volume and lower density. Although we aren’t dealing with density here, it is interesting to know, the phenomenon of expanding water is what makes gargantuan icebergs float on water. Apparently, there is nothing in the world that can contain expanding water without getting fractured (if you know about something that can, inform me in the comments section below). For a live demonstration, you can have a look at the video below, in which a metal pipe is split by freezing water.

This is what happened in Toronto. Water below the surface froze. As a result, it expanded and fractured the surface with a boom to find space for the 10% increase in volume. This was a Cryoseism.

With loud sounds some people have reported distant flashing lights. What was that about?

Electrical changes happen in the rocks when they get squeezed, pushed and rubbed around when pressure stored in the ground is released. The flashing lights are most definitely caused by these electrical changes due to rubbing and squeezing of rocks.

In the past the north and north-eastern parts of US have also reported such quakes.

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Valporate – Performance Enhancing Drug for Perfect Pitch

By Anupum Pant

Today we find out if it would be a good idea to impress your friends during the next gathering by hacking your brain with pills to learn a rare ability fairly quickly. But first, pay attention to the following jargon.

Perfect pitch

Perfect pitch is an exceptional ability among few gifted humans that enables them to recognize and re-create the pitch of a musical note instantly without the help of any external reference. There have been no cases of adults learning this ability by practice. However, pseudo absolute pitch can be learnt with great practice and only retained through regular use.

Brain plasticity

Learning to recognize musical notes, or any other ability for that matter can be reasonably easy at an early age due to a brain’s plastic state. The brain’s ability to change and adapt as a result of experience is far better at younger ages. As people age, they lose the ability to learn like kids.

For instance, picture the rate at which infants learn language. By the time they turn 2 – 4 years old, they start using thousands of words. Try learning a new language at the age of 35. It is tough.

However, a new research suggests that this state of brain can be recovered by using drugs. One such drug, according to Dr. Takao Hensch is Valporate.

Is Valporate a Performance Enhancing Drug?

No! it is not a performance enhancing drug. Valporate or Valporic acid is a drug sold under the common names – Depakote, Depacon and Stavzor. For several years it has been used to treat various disorders from migraines to bipolar disorder. It is a chemical substance that can cross the blood–brain barrier. As a result, it has the power to affect an individual’s perception, mood, consciousness, cognition, and behavior.

Dr. Takao Hensch, a Harvard University professor, recently published a study which tested the effects of Valporate on 23 healthy male subjects for two weeks. None of them had a musical experience. During this period they were trained in music. At the end of this study, researchers found that these 23 men did remarkably better than an average adult would do, at perfect pitch tests.

In the future

He thinks, may be 10 years down the line, this drug could be used to enhance other learning abilities like language learning among adults, by changing the state of their brains.

Presently, studies on how the brain changes at cellular level when this drug is taken are underway. Also, Dr. Hensch thinks that humans have evolved to experience these learning stages for a reason. If it is okay to mess around with it, is still being studied. At this stage, trying this out at home can be extremely risky. It would be wise for us to wait for scientists to come out with a comprehensive study on the effects of this drug.

 

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Darkness Is Good For You

By Anupum Pant

It is astounding how the tiniest things can affect your life greatly. Who would have thought that sleeping with lights on can change you into a completely different person, over time?

Sleeping with lights on, or simply not getting enough exposure to darkness can have long-lasting effects. Darkness is good for you.

Melatonin – The Darkness Hormone

Melatonin is a hormone found in all living creatures from the most basic ones to humans. Melatonin is produced in the pineal gland (a part of the brain), by the retina, lens and GI tract. Production of melatonin is influenced by the information received from the retina about the daily pattern of light and darkness. It is primarily secreted when the information of “darkness” is obtained by the gland.

Its Effects

Its levels vary in a daily cycle. In humans, it plays a role in the regulation of several biological functions. Three of its functions we are interested in here are – its effect on out mood, performance and aging process.

Aging, behavior and memory effects:
According to one study, in mice that were aged artificially, Melatonin had immense anti-aging effects. In a similar study, the combined effect of physical exercise and increase in of Melatonin concentration led to improvements in behavior, learning and memory.

Studies on humans have also produced results on similar lines. The hormone’s effect on mood, performance, memory and visual sensitivity were assessed among 14 healthy men in a study carried out at MIT. It was found that externally administered Melatonin had a significant but short acting sedative-like effect on humans. In terms of mood, it had a calming effect.

Anti-Cancer effects:
Melatonin causes cancer cells to self-destruct. The hormone also boosts your production of substances that make your immune system stronger. As a result, your system gets better at identifying and attacking mutated cells that lead to bad cancer.

Other effects:
Melatonin’s effect is not just limited to that. It plays a great role in decreasing Heart Diseases, Headaches, Diabetes and Osteoporosis too. And more…

Improving your Melatonin production

  • Avoid screen time during the last few hours of your day before going to bed.
  • Avoid using any sort of night-light or bed-side lamp. Sleep in complete darkness.
  • Avoid waking up abruptly due to loud alarms or bright light. Use a crescendo for alarms.
  • Sleep away from your phone.
  • Maintain a set light and dark, wake and sleep rhythm.
  • Most important of all, to optimize the production of this hormone, you need exposure to bright sunlight during the day. Unlike what just-the-headline suggests, it is important to note that you are not doing yourself any good by lying in darkness all the time. There has to be a continuous rhythm of light and darkness.

 

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Scientifically, Do Retina Displays Make Sense?

By Anupum Pant

Our eye doesn’t work like a camera – with pixels and frame rates. It moves rapidly in small amounts and continuously updates the image to “paint” the detail. Also, since we have two eyes, both the signals are combined by the brain to increase the resolution further. Due to this, a much higher resolution image than possible with the eye’s abilities, can be generated in the brain. The very fact that we haven’t been able to come up with artificial devices that work the way a human eye does, confirms that we haven’t been completely able to understand this complex device yet.

But what we know about the average human eye is that its ability to distinguish between two points is measured to be around 20 arcsecs. That means, two points need to subtend an angle of at least 0.005 degrees to be distinguished by the human eye. Points lying any closer than that would mean that the eye would see it as a single point.

One thing needs to be noted that if an object subtends 0.005 degrees when it lies 1 foot away, it will subtend a lesser angle as it moves away. This is the reason you have to bring tiny text closer in order to read it. Bringing it closer increases the angle it subtends, only then the eye is able to resolve individual letters. Or in other words, anything is sharp enough if it is far enough.

Apple Science

Retina display, the Apple’s flagship display is said to be so sharp that the human eye is unable to distinguish between pixels at a typical viewing distance. As Steve Jobs said:

It turns out there’s a magic number right around 300 pixels per inch, that when you hold something around to 10 to 12 inches away from your eyes, is the limit of the human retina to differentiate the pixels. Given a large enough viewing distance, all displays eventually become retina.

Basically, Apple has done science at home and has come out with a nice number, 300 PPI. Practically, you don’t need anything higher than that. Technically, you do.

Isn’t “more” better?

No one is really sure. According to my calculations, an iPhone 5s’s display (3.5X2 in) would subtend 13.3 degree X 7.6 degrees from a 15 inch distance. With the kind of resolving power our eye sports, you’d need a screen that is able to display 4 megapixels on that small screen. Or in layman words, you need a screen that can pack around 710 PPI; practically, that sounds a bit too extreme (or maybe my calculations are wrong, please point it in the comments). I’d go with Steve Job’s calculation.

My shitty screen is a retina display

So, technically any device can said to be sporting the most touted screen in the industry today – a retina display – if it is kept at a sufficient distance. For instance, my laptop’s monitor with a resolution less than one quarters (~110 PPI) of what we see on today’s devices becomes a retina display when I use it from a distance of about 80 cm. 80 cm is normally also the distance I use my laptop from. Also, even doctors consider 50-70 cm as an optimum distance from screen to eye, to avoid eye strain.

On my shitty screen, the pixels are at a distance of 0.23 mm from center to center. And at 80 cm, my eye is practically unable to see the difference between a retina display and a shitty display. So, I say, do you really need higher and higher PPI devices? But that is just my opinion.

My Shitty phone is a retina display

As phones are generally used from a much closer distance, they require a higher PPI for the screen to look crisp. My phone, Lumia 520 has a 233 PPI screen. It becomes a retina display after a distance that is anything more than 15 inches. I’m required to hold my phone at 4 inches more than an iPhone to turn it into a display which is as good as an iPhone’s. Do I bring my phone any closer for anything? No. Do I need a higher PPI? No.

Conclusion

Recent phones from Samsung, Nokia and HTC pack in 316, 332 and 440 ppi, etc or more. Companies are spending billions to decrease the distance between their pixels. Sony, for instance, has recently come up with a 440 PPI display. And now, we have 4K TVs. Practically, I’d say, put an end to this manufacturer pissing contest and use this money for something more worthwhile. Technically, according to calculations, I say that we yet have to develop far more complicated technologies to cram in more pixels for pleasing the human eye.

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Working Memory – Chimpanzees vs. Humans

By Anupum Pant

At least in one known cognitive area, chimpanzees prove to be far smarter than human beings. While it is possible for humans to train themselves up to some extent at it, they lack the capacity for an excellent working memory. On the other hand, chimps naturally display a remarkable working memory.

So, naturally the next question we’d ask – what exactly is working memory and how can I beat chimps at it?

But before that is answered, let us have a look at this study conducted by Japanese scientists.
In the study, scientists use a test where numbers from 1 to 9 are arranged on a screen randomly. The test taker is given a chance to remember all the nine positions. When the subject is ready, the areas go blank and the user is required to recall all the nine numbers in sequence. One mistake and the subject has to start over. In the test, we see this chimpanzee named Ayumu showing remarkable ability in terms of working memory. The opponent human loses badly.

BTW at this test, the chimp Ayumu, can now recall 19 numbers in sequence without making a single mistake. Not just Ayumu, this knack is observed in all chimps.

Why?

As the researcher mentions, chimps are not the same as humans. Both humans and chimps had a common ancestor several millions of years ago. Now, both of these species have evolved in their own ways for all these years. While they’ve gotten good at something, we’ve picked up different abilities. You don’t have to feel bad about it.

This ability to actively hold multiple pieces of information in the mind and play with them has helped these chimps to survive in the wild by helping them to make quick decisions. As a result, they have evolved to master it.

Training + Caveat

Although you can train yourself to have an amazing working memory, you’ll probably never be able to beat chimps. Also, you should know that very few humans have a nearly equal level of working memory as compared to chimps, and these are the people who are affected by a mental disability called the Savant syndrome. It is beyond common humans to train themselves to chimp-level-working memory.

A game known as n-back, used as a test and an exercise tool can help you to master your working memory. The game starts easy. Then you move on to the second level where things straight away move from easy to difficult. The next levels seem impossible at first. But it has been proved that this game can help you to improve your working memory. The harder you train, the better you get at it; of course, never as good as Ayumu.

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Human Skin and Permanent Tattoos

Our skin is huge. It is so big that it is larger than any of our organs. Yes, skin is the largest organ in our body. Still, we have never heard some of the most striking things about the human skin. Let us take a few minutes to skim through them before we talk about permanent tattoos.

Weight and Area: If our skin was cut and laid on the floor, it would cover an area of about 1.5 to 2 m2. If weighed on a scale, it would independently weigh about 3.5 kg (about 5% of your body weight).
To give you a perspective about its area, the same area in some posh localities of Mumbai would cost around $35000. Anyway, it sounds senseless to compare our skin’s area with real estate. So, given that no one has been able to artificially create an exact replica of it, I can’t really put a cost on it now. Let us talk about a nice estimation of its cost in the future. In terms of many functions it performs for our body, – a personal air conditioner, heater, shield, sensor, moisturizer etc – our skin, no doubt, is an invaluable asset.

In short, it is always good to think carefully about it, when you are planning a construction on this precious piece of real estate. Because bringing it down is going to be difficult.

Permanent Tattoos

To understand how permanent tattoos work, you need to understand the basic structure of skin.

Layers: Broadly, there are 3 main layers of skin – The Epidermis, Dermis and Hypodermis. The thickness varies at different parts. For instance, it is the thinnest at our eye-lids. Thinner skin is lighter. This enables you to complete the wink, in the wink of an eye.

Why Permanent?
Permanent tattoos on skin are permanent because of the 3 different layers. To put a tattoo on your skin a mechanized needle punctures your epidermis and sends colored particles to the epidermis. The body thinks of it as a damage that has been done to the body, and sends white blood cells to capture the color particles. But these particles are too big to be eaten by the white blood cells. As a result, they stay there permanently.

Why Avoid?

  1. It is not really Permanent: Later in your life, as the pigment moves and the folds of skin change, the “permanent tattoos” lose their sharpness. They start fading or get distorted. But a hazy and pointless mark remains there permanently.  At this point, people start regretting about their early life decisions. They start looking for methods to get rid of these hazy marks. Now, an expensive laser treatment seems like the best idea.
  2. Tattoos can kill you: While itching, swelling, rashes, bumps, and other skin reactions due to tattoos are very common; it should be known that tattoos can also kill you. Poorly made tattoo ink can contain hazardous chemicals which range from potentially carcinogenic substances to the presence of lead. Moreover, a wrong needle pierced at the wrong places, like your spine, could prove to be deadly. You don’t want these pigments in your blood stream.
    HIV or hepatitis from an infected needle can be another concern. But dying from a tattoo is extremely rare.
  3. Professional career: Also visible permanent tattoos aren’t good for your professional career. Most employees think it’s unacceptable for tattoos by be visible while at work. Also it is believed that tattoos should be covered up for a job interview.
  4. Tattoo removal can be expensive. Plus most of the time these methods don’t do their job perfectly. Often, permanent coloration is left after removal.
  5. This is not an exhaustive list. So, Etc…

It is a good idea to find some other way to prove your love.

If you are wondering why I wrote this – It was a side-effect of an effort to find a few common things in the randomness that I came across today while researching for a completely different article. Although the article might seem absurd, you can’t refute that it does teach you at least one new thing, for the day.

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So, What Does The Fox Say?

By Anupum Pant

One of the most popular videos on YouTube last year was a song sung by two Norwegian brothers titled, The Fox. I’m not sure what was it exactly that made the video go viral, which is not to say that it wasn’t funny.

I think it was those absurd lyrics dropped at a time when you expect something serious, made it so popular. With an infectious catchy tune, the lyrics of this song seem very childish and at the same time, it is sung in a serious tone.
Popularity kept aside for a while, the number poses an important question which not many of us must have considered – What does the fox say? Makes us go looking for answers, doesn’t it?

As scientists would put it, the question this song poses, is indeed a challenging one. It isn’t easy to generally vocalize the sound made by a fox. Also, foxes make variation of sounds for different situations. Moreover, that, there are varieties of foxes out there, makes it even more difficult to answer the question.

The high pitched bark:
For instance, the red fox, which is the most common variety of fox, screams in a high-pitched bark. It sounds like a woman screaming in distress. In words, it sounds like a YAAGGAGHHGHHHHH. And is exactly the reason we aren’t taught this at school. Imagine, the teacher teaching with a YAAGGAGHHGHHHHH in a classroom.

The bird like sound:
When they fight, foxes can sound like birds. Unlike the screams discussed above, these sounds aren’t heard for long distances. Little fox pups also make these guttural sounds when they play. The sound is called Gekkering.

The high-pitched howl:
When greeting a more powerful foxes, weaker ones make a very high-pitched howl that can be heard for several kilometers.

Apart from these broad categories, they make several other subtle variations for different situations. The video below has a good collection of fox sounds:

On that note

What do you think the Cheetah says? Most of us have seen a cheetah (probably at the zoo), but not many must have heard it talk. It may come as a surprise to you that Cheetahs chirp like birds. Or you could call it more of a cat-fight sound.

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