Posted in Science & Nature

Entropy

The Second Law of Thermodynamics, one of the fundamental principles of physics, dictates that the entropy of an isolated system never decreases over time. If left alone, an isolated system will always progress towards thermodynamic equilibrium: a state of maximum entropy.

These are very long, technical words: what is entropy and why should you care?

Simply put, entropy can be thought of as a marker of how chaotic and disordered a system is. This is a misleading simplification, as entropy actually is more about energy moving from a concentrated state to a more dispersed state, but it is easier to understand this way.

An example would be a hot cup of coffee cooling down. The hot coffee is a concentrated locus of energy. But over time this energy gets dispersed throughout the coffee and into the surrounding (cooler) air and converts the water into steam. Energy slowly disperses out, until the coffee becomes room temperature.

This makes the Second Law of Thermodynamics more relatable. When have you ever seen a cold cup of coffee heat up by itself without any heat source? For that matter, a spilt glass of milk never reassembles itself. Balls sporadically arranged on a pool table will never form an orderly triangle by themselves. A dead person cannot miraculously come back to life. Without external influence, you cannot reverse the entropy of a system.

In a way, you could define life itself as a battle against entropy.

The cells in our body are continuously fighting to preserve order and energy in our body, such as actively pumping salts in and out to maintain concentration gradients, rigorously preserving our body temperature to ensure that enzymes can function optimally and breaking down food to fuel all the processes keeping us alive. If we are left truly isolated (no heat, no food, no oxygen), then entropy will build in our body until we die.

The concept of entropy can be particularly motivating when we consider that entropy doesn’t just apply to physical energy. Our brains are also subject to entropy where, if left alone, it will default to the lowest energy state.

This means that if we don’t pay attention, we will quickly find ourselves mindlessly consuming content, scrolling social media, binging television and procrastinating. It is so easy to waste away the potential energy in our brain if we let entropy have its way.

The best way to counter this is by focussing on a key part of the Second Law of Thermodynamics. It says that entropy never decreases in an “isolated” system. Some things are irreversible, like the inevitable heat death of the universe or our own mortality, but we can enact some change to restore some order to some systems. A cold cup of coffee can be reheated in a microwave. A leaking tire can be patched up and inflated. A spilt glass of milk can be turned back upright and refilled with more milk.

Ergo, we must prevent ourselves from being isolated systems. There are three main ways we can do this.

The first is to stimulate ourselves from external sources, reheating our metaphorical cup of coffee. This includes hobbies and interests, learning new things and expanding your horizons. Our brains are naturally fuelled by curiosity, passion and experiences.

The second is to connect with other people. Healthy social interactions keep us grounded to reality and inspire us to be better versions of ourselves. People can provide us with new knowledge, insights, wisdoms and love.

The last and most important is channelling our own willpower. We must fight against our natural instinct to be lazy by pushing ourselves to get off the couch, to exercise, to work, to create, to produce, to live. This is also the hardest because if it was easy for us to “Just Do It”, we wouldn’t even be discussing how to beat entropy. Therefore, we need to create systems, habits and routines to trick our brain into working and being productive. In no time, you will find yourself auto-adjusting your life to prevent entropic laziness from taking over your life, like homeostasis.

Isaac Asimov’s short story The Last Question tells the story of how even the most powerful supercomputer in the cosmos cannot answer the question of how we can meaningfully reverse entropy in the universe. But turns out we can reverse the entropy of our brain and it is damn well worth the effort.

Posted in Science & Nature

Thoughts On Sunlight

We live in a world where everything is powered by something. Our technology is fueled by electricity. Our cars are fueled by fossil fuel (although hopefully not for much longer). Our generators are fueled by everything from coal to running water to the splitting of atoms. We are fueled by food, which we break down to release energy.

But at the core of it all, the world is fueled by one main energy source: sunlight.

Let us retrace the steps.

The device you are using to read this is charged by electricity provided by a power generator. Whatever the source of electricity is, humans are required to power the machines and we are fueled by food. The food we eat are either plants, or meat from animals that consume plants. Plants generate their energy through photosynthesis, where sunlight is used to store energy in carbohydrates. 

Ergo, sunlight fuels us all – we are all made of and held together by sunlight.

The Sun is positioned 152 million kilometres from Earth. This means that sunlight travels 152 million kilometres – a distance that takes even light eight minutes to traverse – to feed Earth, brighten our days and make us feel warm and fuzzy. 

Sunlight also heats the earth and seas to power various weather cycles and currents, provides heat to keep life possible and most importantly, lets us see because it floods our day with photons. 

Just something to think about the next time we enjoy a delightful nap in a warm, cozy sunbeam.

The sunniest Magic painting: Endless Sands - Imgur
Art credit Endless Sands by Noah Bradley

Posted in Life & Happiness

Spoon Theory

In 2003, a woman by the name of Christine Miserandino coined the Spoon Theory to explain what it is like living with a chronic medical condition to her friend. When asked by her friend what it is like to live with lupus (an autoimmune condition resulting in various symptoms such as joint pains, fatigue and rashes), she gathered twelve spoons and handed it to her friend.

Miserandino explained to her friend that the spoons represented units of energy. Doing tasks – whether they be simple or complex, fun or a chore – used up spoons.

Getting dressed in the morning? That’s a spoon. Catching up with a friend in the afternoon? That’s another spoon. Cooking a proper meal for dinner? That might even take up two spoons. Even the simplest task such as doing dishes or taking a shower uses up energy.

When all of the spoons are used up, you don’t know what will happen, but you do know that you won’t be able to do anything else. To make it safely to the end of the day, you must carefully ration your spoons so that you have at least one spoon left by the time you get to sleep in your bed.

Most healthy people have a much larger pool of spoons to start the day with: large enough that they can reliably do pretty much all of the things they want to do throughout the day, then replenish the spent spoons through sleep and rest. But for people with chronic conditions such as lupus or depression, they live with a constant awareness of the limited supply of spoons that they have, along with the crushing fatigue and lack of motivation that awaits when the spoons run out.

You never know when you’ll have a sudden need for more spoons: you might get acutely sick, a friend may need emotional support, your relationship may become strained. Ergo, not only do you have to ration the spoons for a typical day, but you need a rainy day reserve of spoons.

Of course, the Spoon Theory is not only helpful for understanding what it is like to live with a chronic condition (or being a “spoonie” as some people would say), but it also helps us understand what our own reserves are when we are reasonably well.

No matter how healthy and well-adjusted we may be, life will indubitably challenge us with various demands. We will have to expend physical and emotional energy to keep up, whether it be going to work to pay bills, supporting our loved ones through tough times, or even doing enjoyable things such as indulging our passions.

There will no doubt be a day when we run out of spoons and we find ourselves unable to do anything, even if it’s as easy as getting out of bed in the morning.

By knowing about the Spoon Theory, we can always be mindful of how many spoons we have left and have the wisdom to keep a spare spoon in our pockets for that particularly tough day.

Posted in Science & Nature

Bird Strike

An airplane flying across the sky faces many dangers. But a very common yet not well-known type of accident is the bird strike. Just as the name suggests, a bird strike is when a plane collides with a flying bird. This may not sound so dangerous, but considering a plane typically flies at 800~900km/h, the energy from the collision is quite significant. If a plane flying at 800km/h collides with a 5kg bird, the energy generated is 92 tonnes. This is not only enough to instantly kill the bird, but also enough to damage the plane.

The most common type of bird strikes is when a bird collides head-on with the windshield or gets sucked into the engine. The latter can cause severe damage to the engine and even cause it to fail. For example, in 1960 a plane flying above Boston collided with a flock of starlings, leading to all four of its engines failing and causing it to crash, killing 62 passengers. Since birds typically fly below an altitude of 9000m, bird strikes most often occur during take-off and landing. However, there are case reports of much higher altitude crashes, with the record being held at 11300m.

According to statistics, the most common type of bird involved are waterfowls and gulls, with 15% of bird strikes being severe. Bird strikes cause $1.2 billion worth of damage annually worldwide and has cost 200 lives since 1988. The first bird strike occurred with the invention of the airplane, as recorded by the Wright brothers (inventors of the modern airplane). As bird strikes cause so much damage, airports place many countermeasures to prevent them. The most frequently used methods are driving away birds from runways by using scarecrows and other methods, or modifying the plane and engines to be more bird-resistant.

Posted in Science & Nature

Resonance

The power of vibration is incredible. Vibration allows a microwave to heat food and causes cities to be destroyed by earthquakes. The most interesting feature of vibrations is resonance, where a vibration of certain frequency greatly amplifies the vibration of another object. Every object has a natural oscillating frequency and when another wave of the same frequency hits the object, the oscillation suddenly amplifies and resonance occurs.

The best example for resonance is a swing. If you push a person on a swing at the same frequency as the swing’s natural frequency, you can achieve a much greater height than from pushing at any other frequency. Resonance can also be used to shatter a glass with only sound, by singing a sustained note at the same frequency as the glass’ natural frequency.

Resonance is how two things combine to create an even greater force.

1 + 1 = 3

image

Posted in Science & Nature

Nuclear Explosion

Nuclear weapons are quite possibly the most dangerous weapons mankind has ever developed. Through the use of nuclear fission, atoms are split to release the massive amounts of energy contained within, causing a gargantuan explosion. When a typical nuclear bomb detonates, energy is released in various forms: blast energy (40~50%), heat (30~50%), radiation (5%) and fallout (5~10%). The distribution of the energy varies according to the type of bomb (e.g. neutron bombs produce significantly more radiation than heat and blast energy).

The initial damage that follows a nuclear explosion is from the blast energy, much like a conventional weapon. The sheer amount of kinetic energy creates a shockwave that pulverises everything in its path, travelling at speeds over 1000km/h. In addition, the heat from the explosion, over ten million degrees celsius at one point, causes vaporisation of all matter within a certain radius, causing a massive release of gases, fuelling the shockwave from the expansion. In the case of the bomb that destroyed Hiroshima, all structures within 1.6km were vaporised and those within a 3.2km radius suffered moderate to severe damage. A modern nuclear weapon is at least tens of times more destructive and will affect a significantly larger area.

At the same time, thermal radiation spreads out in all directions much like sunlight. Thermal radiation travels far further than shockwaves and can cause severe burns and eye injuries (flash blindness) to people in the vicinity (if they are close enough, they will spontaneously combust or melt). Near ground zero (point of explosion), a firestorm may erupt from the sheer amount of heat energy, as observed as a fireball. 

Next comes the indirect effects.
Ionising radiation is produced when atoms are split and these have detrimental effects on living organisms. Not only are they responsible for mutations in the genome, leading to deformed offspring, sterility and cancer, but if there is sufficient radiation, a person will immediately die from acute radiation poisoning.
The same radiation, especially gamma rays, creates what is called an electromagnetic pulse (EMP). EMP is caught by metal objects and induces a high voltage surge, destroying unshielded electronic devices. Sometimes, nuclear bombs are detonated at very high altitudes so that only the EMP affects the ground, damaging enemy communications and destroying entire power grids.
Lastly, radioactive material rains from the sky for long periods of time, also known as fallout. Fallout causes continuous radiation damage in affected areas.

A nuclear bomb is truly a weapon of mass destruction as it utilises various forms of destruction to devastate all life forms within an area spanning several kilometres, even killing over the course of time in the form of radiation.

Posted in Life & Happiness

Get Psyched Mix

The Get Psyched Mix is a list of 24 English rock & roll songs carefully handpicked by Barney Stinson. His intention was to create a mixed CD that steps up from the traditional rule that a mix CD must “rise and fall”; instead, it is all rise. This means that the mix allows for maximum psychitude with no time wasted, giving you that amped feeling to clear away all the worries and troubles of your life.
After listening through the entire mix, you will indubitably feel the need to high five or fist bump your bro and appreciate the beauty of life. Whenever you are down, the Get Psyched Mix will cheer you up without failure.

This is a modified, recompiled version by Jin Kim for even more psyche: (Youtube playlist here: http://www.youtube.com/playlist?list=PL7ADC01CA52D35E52)

  1. Bon JoviYou Give Love A Bad Name
  2. AC/DC – Highway To Hell
  3. Joe Esposito – You’re The Best
  4. Guns N’ RosesParadise City
  5. Europe The Final Countdown
  6. Scorpions Rock You Like A Hurricane
  7. Van HalenPanama
  8. PoisonTalk Dirty To Me
  9. AC/DC Thunderstruck
  10. KISS – Lick It Up
  11. Van HalenJump
  12. Bon Jovi Livin’ On A Prayer
  13. Guns N’ RosesWelcome To The Jungle
  14. Journey Don’t Stop Believing
  15. Warrant – Cherry Pie
  16. Starship – We Built This City
  17. Pseudo Echo – Funky Town
  18. Billy Idol Dancing With Myself
  19. Rick SpringfieldJessie’s Girl
  20. Twisted Sisters – I Wanna Rock
  21. Eric ClaptonLayla
  22. Kenny LogginsHighway To The Danger Zone
  23. Queen – We Will Rock You
  24. The Proclaimers 500 Miles