Posted in Science & Nature

Metal

Next to the discovery of fire and the wheel, the discovery of metals and the mastery of metalworking was arguably one of the most important advances for prehistoric humanity. Metal was far superior to rock, clay, wood or any other natural resource known to man in terms of strength and sharpness. Because of these properties, metal soon became a valuable commodity. It can be seen how much impact metal had on humanity’s history, considering that the stages of human prehistory were named after the type of metal (or lack thereof) that was mastered then: Stone Age, Bronze Age and Iron Age.

The discovery of metal came in two ways.

One was through mining, where prehistoric people discovered that shiny, hard objects were buried in the ground. They later discovered that with enough heat, they could melt the metal out of ores (copper and tin were the first metals to be gathered this way) and mould them into any shape. After smelting technologies developed, our ancestors found that mixing copper and tin produced bronze – a much stiffer and more durable metal than either of its components. A mixture of metals is called an alloy. This was the start of the Bronze Age. Bronze was extremely useful and people quickly came up with innovative ways of using it, such as farming equipment and weapons.

Some other metals used during this age were: gold, silver, lead and mercury. It is likely that gold was one of the earliest metals used as it comes in pure nuggets and is easily workable thanks to its chemistry. However, given that gold is rather soft and was treated more as jewellery than a practical metal, it was not used as much to advance technology.

The second way mankind came upon metals was in the form of “gifts from the gods”. A prime example is iron. Although the Iron Age began around 1200BC at the earliest, there are iron objects (mainly jewelleries) that have been dated back to 5000BC. How could this be? This was before mankind had the technology to smelt iron ores (which is more difficult and needs much higher temperatures than copper or tin ores), so the iron could not have been gathered through mining. The answer to this conundrum lies in meteorites. About 6% of meteorites contain iron and nickel, which prehistoric civilisations may have stumbled onto and taken the shiny pieces back to their tribe. The people would have considered the gathered iron a “gift from the gods”, as it had crashed down from the “heavens”. Because of this reason, iron was considered more valuable than gold or silver and was frequently used for jewellery. This is reflected in Arthur C. Clarke’s science fiction short story, The Songs of Distant Earth, where sentient sea scorpions hoard metal objects stolen from the humans and wear it proudly as a badge of honour.

The history of iron and how it was believed to be a gift from the heavens relates to a common superstition of how finding a penny (or any coin) represents good luck. As “metal” (mainly iron) was considered a holy gift bestowed unto mankind, finding a piece of metal was believed to be a blessing and some form of protection against evil. This is also represented in various traditions such as hanging horseshoes over doorways and wearing charm bracelets with metal on it.

Although it sounds like a silly superstition, it clearly shows how metals have been an integral part of the development of civilisation.

Posted in Science & Nature

Niven’s Laws

Larry Niven is a science fiction author. Like many other science fiction authors, he is responsible for citing many rules regarding the world, humorous or not. Niven took to this another level by publishing a series of laws on “how the universe works” as far as he can tell. The following is the revised list as of January 29, 2002.

  1. Never throw shit at an armed man.
  2. Corollary to #1: Never stand next to someone throwing shit at an armed man. 
  3. Never fire a laser at a mirror.
  4. Mother Nature doesn’t care if you’re having fun.
  5. Giving up freedom for security is beginning to look naive. (or “F x S = k”, meaning that the product of freedom and security is a constant.)
  6. Psi and/or magical powers, if real, are nearly useless.
  7. It is easier to destroy than to create.
  8. Any damn fool can predict the past.
  9. History never repeats itself.
  10. Ethics change with technology.
  11. Anarchy is the least stable of political structures.
  12. There is a time and a place for tact.
  13. The ways of being human are bounded but infinite.
  14. When your life starts to look like a soap opera, it’s time to change the channel.
  15. The only universal message in science fiction: There exist minds that think as well as you do, but differently.
  16. Corollary to #15: The gene-tampered turkey you’re talking to isn’t necessarily one of them.
  17. Never waste calories.
  18. There is no cause so right that one cannot find a fool following it.
  19. No technique works if it isn’t used.
  20. Not responsible for advice not taken.
  21. Think before you make the coward’s choice. Old age is not for sissies.
  22. Never let a waiter escape.

Posted in Science & Nature

Clarke’s Three Laws Of Prediction

The following are three laws conjectured by acclaimed science fiction author, Arthur C. Clarke, regarding predicting the future.

  1. When a distinguished but elderly scientist states that something is possible, he is almost certainly right. When he states that something is impossible, he is very probably wrong.
  2. The only way of discovering the limits of the possible is to venture a little way past them into the impossible.
  3. Any sufficiently advanced technology is indistinguishable from magic.

Posted in History & Literature

Printing

Most Westerners are familiar with Johannes Gutenberg, who invented the printing press in 1450 which allowed the mass-production of books, namely the bible. In fact, the printing press is thought of as one of the crucial factors that triggered the Renaissance in Europe.
However, what most people do not know is that the movable type – a printing machine where individual letters can be rearranged and reused – was invented in Korea during the Goryeo Dynasty two centuries before Gutenberg.

Before the movable type, Buddhist monks would carve out wooden blocks so that they could copy out religious texts with ease. But as this involved the monks having to carve out the entire text (often very long), it was extremely labour-intensive and everyone sought an easier method of mass-producing texts. The concept of the movable type was experimented with throughout the centuries, but it was found that woodblocks would wear out too fast. Although metal was the obvious choice, the technology was not developed enough to produce the fine letters.

In 1234, a Korean man called Choe Yun-ui finally devised the technology to invent the first metal movable type in the world. The process was very complicated, involving the making of durable clay moulds to hold the molten metal without breaking.
This was revolutionary as it meant that texts could easily be printed as all the printers had to do was rearrange pre-made letters in order rather than laboriously carving each one out. Metal movable types are also extremely durable and give a very clean print, unlike the wooden counterpart that tends to wear out or smudge. The metal movable type allowed for the mass-production of books which greatly boosted Goryeo’s culture and education within the poorer classes.

Korea was the leading innovator in the printing industry throughout history, with the earliest woodblock prints dating back to 751. The motivation to develop this technology was partly thanks to Buddhism. To ensure that Buddha’s teachings could be spread far and wide, Buddhist monks worked day and night to produce these texts. This was a critical job during the 13th century when the Mongol Empire was rampaging through the whole of Eurasia. As military force was insufficient to repel the invaders, the people turned to spirituality for power. Furthermore, due to the destructive nature of the Mongols, it was crucial to replace damaged texts to ensure that precious cultural heritages would not be destroyed. This was the main motivation for the creation of the metal movable type and to this day we can see the evidence of the state-of-the-art printing device in books from the 13th and 14th century.

One limitation still remained with the movable type – Chinese characters. At the time, Korea still used Chinese characters to record the Korean language (similar to how Chinese characters can be transcribed in pinyin form). As there are literally tens of thousands of characters, a massive amount of individual types had to be produced.
This problem was solved by King Sejong the Great of the Joseon Dynasty, who invented Hangul – the Korean alphabet. Hangul only contains 24 letters and is extremely logical in its construction, ergo it was a perfect system for recording language. It also meant that much less individual types were needed, making the printing process even more efficient.

Although the 20th and 21st century saw the Western Hemisphere leading science and technology innovations, it is important to remember that the East dominated the field for millennia before.

Posted in Psychology & Medicine

Locked-in Syndrome

Imagine that one day, you wake up, but then no matter how hard you try, you cannot move a single part of your body. Trying to roll out of bed, lifting your arm, or even moving your fingers is impossible. You think it is merely sleep paralysis, but you soon realise that it is not as simple as that, or even a dream. No voice escapes your throat.
The only thing you can do is blink and roll your eyes around.

Welcome to the world of Locked-in Syndrome (LIS), a neurological condition where your brain has no connection to all the muscles in your body. The actual symptoms list is: quadriplegia, paralysis of most facial muscles, inability to speak, with complete preservation of cognitive function (sometimes sensation too). In simpler terms, a LIS patient’s mind is essentially trapped inside an unmoving body, with only the senses and eyes to interact with the real world.

It is caused by damage to a part of the brainstem known as the pons, which not only carries motor nerve fibres to the spinal cord (where it then carries on to supply the muscles of the body), but is also the origin of some cranial nerves. This explains the symptoms of paralysis, even the face (e.g. damage to the facial nerve, or CN VII). More specifically, the damage only affects the pons and not the brain itself, meaning that cognition (thinking), intelligence, memory and sensation (if the fibres are spared in the brainstem) are completely functional.
This can be caused by trauma, stroke, drugs, degenerative neuropathies, or anything that can selectively damage the pons.

Due to the nature of the disease, there are no treatment or cures for LIS. Prognosis is very poor and most patients are not expected to regain motor control. This can be very distressing news to LIS patients, as it essentially means that they will be trapped in a motionless, voiceless body for the rest of their natural lives, which could feel like eternity. Although over 90% of the patients die within 4 months, some continue to survive for much longer periods. To improve their quality of life, methods have been developed to allow the patients to communicate, such as Morse code (by blinking eyes) or alphabet boards. Technology is allowing even better options such as eye-tracking and brain-computer interfaces, where a machine tries to interpret a pattern in brain activity, trying to relate a certain action to a pattern. This may allow simple communication such as yes/no answers.

Because of the almost complete paralysis, even professional neurologists often miss this condition, diagnosing the patient as being in a vegetative state.
What would it be like to be trapped in your own body – or “living corpse” as described by Alexandre Dumas in The Count of Monte Cristo – and not be able to tell others that you were still in there?

Posted in History & Literature

3000 A.D.

How will the world change over the next millennium? Everything will change: from lifestyle and culture, to international politics and economics. This makes the posited question extremely interesting.

As science will continue to advance rapidly, technology that can only be dreamed of by modern man will become commonplace in the future. For example, computers will become essential tools such as pen and paper, or possibly become obsolete like the typewriter. Human beings will rely more and more on machines, which may lead to human-machine interfaces and cyborgs, or simply robots becoming common household appliances. Space travel will become as common as air travel, and humanity may even begin to colonise other planets or moons.
As this field can flow in completely unpredictable directions, it is extremely hard to know what will come. One thing is for sure: there is infinite potential in science for at least the next thousand years.

The continuing evolution of medicine and advanced hygiene policies will increase the lifespan of the world. This will bring upon the aging of the population, a “disease” that already plagues some developed nations. Governments may even respond with extreme solutions such as setting an age limit (or killing the elderly to change the demographics), but the more likely option is lengthening the period of youth or reversing aging to prevent the phenomenon of an elderly population.

Socially, the internet will allow for a ubiquitous society, bringing together the entire world. However, the internet is a double-edged sword that may improve interpersonal relationships, but also cause people to become antisocial and communicate only via electronic screens. Unfortunately, it is unlikely the gap between the rich and poor will be filled. The reason being, people’s basic instinct to take from others to improve their own life means that there will always be those who are rich and those who are poor.

In mankind’s history, there have been only a few empires that have survived over a millennium. Even the United States of America that currently is the leading nation is showing signs of deterioration, and China will instead rise to the top over the next few hundred years. But no one knows who will be the strongest power in the year 3000, as even a (currently) weak nation may suddenly strike and claim the throne.
For example, the Roman empire 2000 years ago, the Mongol empire 1000 years ago, and the Ottoman empire 200 years ago have all fallen and have only become pages in history books now.

Even after two vicious world wars, future nations may ignore history’s teachings and cause a third world war, which could involve the use of nuclear weapons. In this case, the world will definitely be unrecognisable compared to now. 
Alternatively, history may take a peaceful course where the concept of “nations” crumble and instead a united world is formed.

An even more interesting thought is “How will future people see us?”. As we mock the unsanitary conditions, violent history and underdeveloped science of the past, the future may laugh at concepts such as paternalism and communism, or even our fashion of jeans and shirts.
On the other hand, it is possible that works such as Harry Potter or House MD will be seen as classics and become the future Shakespearean plays.

As seen from this, the possibilities for the future are endless, and pondering the different futures sometimes bring light to ways to improve the present.