YAHOOOOO!!
I'm waiting for class to start right now and here I am having a time to write about something that suddenly popped up in my brain (man, I have a brain don't let those zombies come and eat it up)
And so I am going to tell you about my favorite place ever. Oh, I've been dreaming about Prague like
Prague (/ˈprɑːɡ/; Czech: Praha, [ˈpraɦa]) is the capital and largest city of the Czech Republic. It is the 14th largest city in the European Union. It is also the historical capital of Bohemia. Situated in the north-west of the country on the Vltava River, the city is home to about 1.24 million people, while its larger urban zone is estimated to have a population of nearly 2 million. The city has a temperate climate, with warm summers and chilly winters. Prague has the lowest unemplo mentrate in the European Union.
Well Said, who'll not going to be in love with this beautiful city.
This should be around winter time (like now) and I don't know how can I describe my feeling the moment I saw this picture like I'm imagining "if only I were there right now"
that should be me sitting there lol
old town square |
Charles Bridge |
Last but not least, this view is the one that tempted me the most about why do I want to go to prague. Romantic isn't it? Just the view of it already give me a romantic feels. No wonder people said that prague is the most romantic city ever existed in the world
I do believe in my dream and I do believe that I'll stand there with my two own foot sooner or later.
When you really want something, the whole universe will help you to make it come true.
Anti,
Dec 15th 2015.
Few people realise that there are places on Earth where human beings have yet to set foot and which are, most likely, still entirely the preserve of wild animals. Many of them are so remote and inaccessible that it would take a huge amount of time, effort and skill for us to reach them. And yet the ones we know about — seen only from the air — are often stunning in their beauty. Perhaps, for all our achievements, it’s precisely because these places have yet to see human intervention that they remain so utterly captivating — places which have stayed the same since the dawn of time, pristine in their beauty.
Here are ten of the most stunning and intriguing. Would you want to go there?
The forest lake, Russia
The exact location of this mysterious lake is unknown. According to some, it can be found in the Tyumen region of Russia. How did it come to sit deep inside the forest? No one knows...
Tepui, Venezuela
The word ’Tepui’ means ’home of the gods’ in the language of the indigenous people of Gran Sabana where these incredible, ominous natural structures are located.
Honokohau Falls, Maui
This remote place is drenched in greenery. The mere sight of it gives you a feeling of the exquisite beauty, majesty and mystery of the natural world. Just imagine what it would be like to travel there.
The Amazon rainforest
This incredible, immense forest sprawls across nine different countries in South America: Brazil, Peru, Colombia, Venezuela, Ecuador, Bolivia, Guyana, Suriname, and French Guiana. It’s so huge that mankind can never hope to explore all of it — or know everything that’s hiding there.
Gangkhar Puensum, Bhutan
This is the highest mountain in the world which has not been conquered by mankind. It’s located on disputed territory between Bhutan and China and soars 7,570 metres into the sky.
Tsingy de Bemaraha, the ’stone forest’ of Madagascar
These rocky projections and canyons formed over a period of a million years, predominantly under the ground in the form of huge caves. Over the years, monsoon rains washed away metre upon metre of limestone and thick layers of chalky sediment, creating this system of unique, mysterious looking natural bridges, spires and gorges which can reach up to 120 metres in depth.
Kerguelen Islands
Hidden away in the southern part of the vast Indian Ocean, these islands are extremely far away from their ’home’ country of France. No planes or tourists go there, and the only way to reach them is via boat from the island of Réunion, close to Madagascar. They might as well be part of Atlantis for all humanity knows about these hauntingly beautiful islands.
Rock Islands, Palau
For modern human civilisation, the Rock Islands are a remote area of the world we no virtually nothing about. However, at some point over the past few thousand years, we can be certain that people have set foot on them. We know this because archaeologists have found evidence of so-called ’tiny people’ — an offshoot of humanity which apparently had severely stunted growth — which used to live there.
Dallol, Ethiopia
Today, salt mining takes place in the vicinity of the Dallol Volcano, so strictly speaking this isn’t an untouched area. But the immediate area of the volcano is, of course, uninhabitable. Fascinatingly, scientists believe the alien-like landscape of the volcano bears a striking resemblance to the surface of Io, the violently volcanic moon of the planet Jupiter.
Palmyra Atoll
Located in the Equatorial zone of the Pacific Ocean to the south of the islands of Hawaii, this pristine island is supposedly home to a mysterious, magical force.
credit:
http://brightside.me/article/ten-incredible-and-mysterious-places-around-the-world-untouched-by-mankind-58905/
We often set down to work with the intention of getting a lot done, of being super-productive. But more often than not, we end up distracted for half the day by our social networks, by the news, by YouTube — you name it. We end up achieving very little we set out to do. That time we had available is lost forever, and we have to find it again on another day when we had planned to relax.
Leo Babauta, a writer who has a blog at Zenhabits, recently wrote an article about the problem of getting distracted and how to overcome it. We gave his method a try, and it really worked. Maybe it could help you to?
’...Yesterday wasn’t a very focused day for me — I got work done, but I also researched a bunch of newish personal interests (mostly programming and cycling), played an iPhone trivia game with my kids, read a bunch of online articles, and did very little of the writing I’d planned.
Digital distractions have also pulled me from reading and meditation in the last week. I think they plague all of us to varying extents.
Realizing this, today I closed all the tabs I’d been researching and reading, bookmarked a few things to read later, shut down the trivia game on my phone, closed email, and took a break.
I meditated.
I showered, and contemplated what was important to me.
Then I got on my bike to get outside and get the blood circulating.
Then I found a place with no wifi, and sat down to write.
This is a guide for my fellow addicts. Those of you who have as much trouble as I do fighting off the temptations and distractions, this is for you. From one addict to another.
1. Recognising when it happens
One of the insidious things about the distraction habit is that we often don’t even realize it’s happening. It sneaks up on us, like old age, and before we know it we’re addicted and powerless.
But actually, we’re not powerless. The power we have is our awareness, and you can develop it right now. Pay attention to what sites you visit, how often you’re looking at your phone, how long you’re spending in front of a screen all day.
What I did when I wanted to develop an awareness of my smoking urges was carry around a pencil and small scrap of paper, and put a tally mark on it each time I had the urge to smoke. I could still smoke, but I’d have to put a tally mark first.
This built my awareness muscle, and it allowed me to insert a small space between the urge and my subsequent action. Into that space, however small, I could eventually make a choice. That was where the power came in.
2. See what’s going on
Once you’re aware of the distractions and urges, you can start to examine the causes.
After hours of following temptations online (learning all about cycling and programming, for example), I stopped and asked myself, «What’s this all about?»
It was about fear — the fear that I didn’t know what I was doing and was going to screw it all up. I now know that it doesn’t matter if I screw it up. My value as a person isn’t tied to my successes or failures. So I closed all the tabs, and decided to focus on one program, and one bike ride. I’ll learn as I do.
My distractions are also often about fantasies — I really hope that I’ll be a great programmer or start doing century bike rides or Ironman triathlons. Realistically, I don’t have time to do any of that. So I have to let the fantasies go, because they almost never come true. Unless you’re willing to devote your entire life to one of them for a year or two.
Distractions, of course, are often about the fear of missing out. We can’t possibly take part in every cool thing that everyone else is doing, but we also don’t want to miss out on any of it. So we look online for what’s going on, what other people are doing and saying, what’s hot. None of that actually matters. What matters is being content, doing things that make people’s lives better, learning, being compassionate, helping. So let’s let go of what we’re missing out on, and focus on the difference we want to make in the world.
3. Taking action
So you’re building an awareness, and you’ve examined your causes. If you haven’t yet, take a few minutes to walk around your office or house, or better yet get outside, and contemplate these things. This article can wait.
Now there are further steps you can take. Consider taking one or more of these:
- Start closing as many browser tabs as you can. Bookmark some things, save others in your favorite «read later» service (such as Instapaper or Pocket), and let others go.
- Block your favorite distractions for a few hours. Games, social media sites, news sites. You don’t really need to go to them that often.
- Write down the times you’re going to check email and other messages. Want to process email for 20 minutes at 10 a.m., 1 p.m., and 4p.m.? Write that down. Stick to it.
- Get away. Go outside for a walk. Ride your bike. Go for a run. Take the kids to the park.
- Meditate. Sit still for just a couple minutes, without any distractions, and put your attention on your breath. Return to the breath when you get distracted.
- Read. A paper book. Close all screens and just give yourself some quiet reading time.
- Find a place with no wifi. Or turn off your router. Write without distractions. Close all applications besides your writing program.
- Delete social media accounts. I recently went back on Facebook to connect with my family during my dad’s hospitalization and death. But the privacy violations and useless things being posted there sent me running, and I deleted my account again.
- Delete distractful apps on your phone. Games, social media, whatever you tend to turn to when you want a bump of distraction.
- Eat without a device. Pay attention to your food. Notice the textures, flavors, colors, healthfulness that you’re putting into the temple of your body.
Of course, there are other things you can do. Go on a retreat. Practice mindfulness in bits throughout the day. Take a day off of screens. The possibilities are endless.
4. Considering what’s important
What’s truly important to you? Social media? News? What everyone else is doing all the time? Games?
I’d submit that we try to do everything, but then we’re not really focusing on anything. We’re not going to make any of our little fantasies come true if we pursue all of them.
What is the one thing you want to pursue right now? Can you focus on that for at least a month? If not, maybe it’s not that important to you.
What are the most important things in your life? Pick 3-4, or 5 at the most. How much of your time is devoted to these things? Can you cut out other things to focus on these? Can you give your 4 most important things your full attention?
In my life, my writing, my family, my health, and my learning are my four most important things. And no, I don’t always devote my full attention to them. I often need to step back and remind myself of what’s important.
5. Falling in love all over again
n his book, «The Art of Stillness,» Pico Ayer says that «sitting still is a way of falling in love with the world and everything in it.»
This is absolutely true. This is why distractions can be so harmful. They’re turning us away from the miracle of life all around us.
Sit still for a few minutes, and pay attention to what’s around you. Notice the quality of the light. Appreciate any people who might be nearby. Notice the quality of your thoughts, the sensations of various parts of your body, the loveliness of your breath as it comes in and out.
Fall in love with life all over again. And then devote yourself lovingly to it completely.
Credit:
on http://brightside.me/article/how-to-stop-being-distracted-and-achieve-whats-really-important-in-life-59055/
Photo: AFP/GETTY |
Physics is weird. There is no denying that. Particles that don’t exist except as probabilities; time that changes according to how fast you’re moving; cats that are both alive and dead until you open a box.
We’ve put together a collection of 10 of the strangest facts we can find, with the kind help of cosmologist and writer Marcus Chown, author of We Need To Talk About Kelvin, and an assortment of Twitter users.
The humanities-graduate writer of this piece would like to stress that this is his work, so any glaring factual errors he has included are his own as well. If you spot any, feel free to point them out in the comment box below.
Equally, if you feel we’ve missed any of your favourite physics weirdnesses off the list, do tell us that as well.
If the Sun were made of bananas, it would be just as hot
The Sun is hot, as the more astute of you will have noticed. It is hot because its enormous weight – about a billion billion billion tons – creates vast gravity, putting its core under colossal pressure. Just as a bicycle pump gets warm when you pump it, the pressure increases the temperature. Enormous pressure leads to enormous temperature.
If, instead of hydrogen, you got a billion billion billion tons of bananas and hung it in space, it would create just as much pressure, and therefore just as high a temperature. So it would make very little difference to the heat whether you made the Sun out of hydrogen, or bananas, or patio furniture.
Edit: this might be a little confusing. The heat caused by the internal pressure would be similar to that of our Sun. However, if it's not made of hydrogen, the fusion reaction that keeps it going wouldn't get under way: so a banana Sun would rapidly cool down from its initial heat rather than burning for billions of years. Thanks to people who pointed this out.
All the matter that makes up the human race could fit in a sugar cube
Atoms are 99.9999999999999 per cent empty space. As Tom Stoppard put it: "Make a fist, and if your fist is as big as the nucleus of an atom, then the atom is as big as St Paul's, and if it happens to be a hydrogen atom, then it has a single electron flitting about like a moth in an empty cathedral, now by the dome, now by the altar."
If you forced all the atoms together, removing the space between them, crushing them down so the all those vast empty cathedrals were compressed into the first-sized nuclei, a single teaspoon or sugar cube of the resulting mass would weigh five billion tons; about ten times the weight of all the humans who are currently alive.
Incidentally, that is exactly what has happened in a neutron star, the super-dense mass left over after a certain kind of supernova.
Events in the future can affect what happened in the past
The weirdness of the quantum world is well documented. The double slit experiment, showing that light behaves as both a wave and a particle, is odd enough – particularly when it is shown that observing it makes it one or the other.
But it gets stranger. According to an experiment proposed by the physicist John Wheeler in 1978 and carried out by researchers in 2007, observing a particle now can change what happened to another one – in the past.
According to the double slit experiment, if you observe which of two slits light passes through, you force it to behave like a particle. If you don’t, and observe where it lands on a screen behind the slits, it behaves like a wave.
But if you wait for it to pass through the slit, and then observe which way it came through, it will retroactively force it to have passed through one or the other. In other words, causality is working backwards: the present is affecting the past.
Of course in the lab this only has an effect over indescribably tiny fractions of a second. But Wheeler suggested that light from distant stars that has bent around a gravitational well in between could be observed in the same way: which could mean that observing something now and changing what happened thousands, or even millions, of years in the past.
Almost all of the Universe is missing
There are probably more than 100 billion galaxies in the cosmos. Each of those galaxies has between 10 million and a trillion stars in it. Our sun, a rather small and feeble star (a “yellow dwarf”, indeed), weighs around a billion billion billion tons, and most are much bigger. There is an awful lot of visible matter in the Universe.
But it only accounts for about two per cent of its mass.
We know there is more, because it has gravity. Despite the huge amount of visible matter, it is nowhere near enough to account for the gravitational pull we can see exerted on other galaxies. The other stuff is called “dark matter”, and there seems to be around six times as much as ordinary matter.
To make matters even more confusing, the rest is something else called “dark energy”, which is needed to explain the apparent expansion of the Universe. Nobody knows what dark matter or dark energy is.
Things can travel faster than light; and light doesn’t always travel very fast
The speed of light in a vacuum is a constant: 300,000km a second. However, light does not always travel through a vacuum. In water, for example, photons travel at around three-quarters that speed.
In nuclear reactors, some particles are forced up to very high speeds, often within a fraction of the speed of light. If they are passing through an insulating medium that slows light down, they can actually travel faster than the light around them.
When this happens, they cause a blue glow, known as “Cherenkov radiation ”, which is (sort of) comparable to a sonic boom but with light. This is why nuclear reactors glow in the dark.
Incidentally, the slowest light has ever been recorded travelling was 17 meters per second – about 38 miles an hour – through rubidium cooled to almost absolute zero, when it forms a strange state of matter called a Bose-Einstein condensate.
Light has also been brought to a complete stop in the same fashion, but since that wasn't moving at all, we didn't feel we could describe that as "the slowest it has been recorded travelling".
There are an infinite number of mes writing this, and an infinite number of yous reading it
According to the current standard model of cosmology, the observable universe – containing all the billions of galaxies and trillions upon trillions of stars mentioned above – is just one of an infinite number of universes existing side-by-side, like soap bubbles in a foam.
Because they are infinite, every possible history must have played out. But more than that, the number of possible histories is finite, because there have been a finite number of events with a finite number of outcomes. The number is huge, but it is finite. So this exact event, where this author writes these words and you read them, must have happened an infinite number of times.
Even more amazingly, we can work out how far away our nearest doppelganger is. It is, to put it mildly, a large distance: 10 to the power of 10 to the power of 28 meters. That number, in case you were wondering, is one followed by 10 billion billion billion zeroes
Black holes aren’t black
They’re very dark, sure, but they aren’t black. They glow, slightly, giving off light across the whole spectrum, including visible light.
This radiation is called “Hawking radiation”, after the former Lucasian Professor of Mathematics at Cambridge University Stephen Hawking, who first proposed its existence. Because they are constantly giving this off, and therefore losing mass, black holes will eventually evaporate altogether if they don’t have another source of mass to sustain them; for example interstellar gas or light.
Smaller black holes are expected to emit radiation faster compared to their mass than larger ones, so if – as some theories predict – the Large Hadron Collider creates minuscule holes through particle collisions, they will evaporate almost immediately. Scientists would then be able to observe their decay through the radiation.
The fundamental description of the universe does not account for a past, present or future
According to the special theory of relativity, there is no such thing as a present, or a future, or a past. Time frames are relative: I have one, you have one, the third planet of Gliese 581 has one. Ours are similar because we are moving at similar speeds.
If we were moving at very different speeds, we would find that one of us aged quicker than the other. Similarly, if one of us was closer than the other to a major gravity well like the Earth, we would age slower than someone who wasn’t.
GPS satellites, of course, are both moving quickly and at significant distances from Earth. So their internal clocks show a different time to the receivers on the ground. A lot of computing power has to go into making your sat-nav work around the theory of special relativity.
A particle here can affect one on the other side of the universe, instantaneously
When an electron meets its antimatter twin, a positron, the two are annihilated in a tiny flash of energy. Two photons fly away from the blast.
Subatomic particles like photons and quarks have a quality known as “spin”. It’s not that they’re really spinning – it’s not clear that would even mean anything at that level – but they behave as if they do. When two are created simultaneously the direction of their spin has to cancel each other out: one doing the opposite of the other.
Due to the unpredictability of quantum behaviour, it is impossible to say in advance which will go “anticlockwise” and the other “clockwise”. More than that, until the spin of one is observed, they are both doing both.
It gets weirder, however. When you do observe one, it will suddenly be going clockwise or anticlockwise. And whichever way it is going, its twin will start spinning the other way, instantly, even if it is on the other side of the universe. This has actually been shown to happen in experiment (albeit on the other side of a laboratory, not a universe).
The faster you move, the heavier you get
If you run really fast, you gain weight. Not permanently, or it would make a mockery of diet and exercise plans, but momentarily, and only a tiny amount.
Light speed is the speed limit of the universe. So if something is travelling close to the speed of light, and you give it a push, it can’t go very much faster. But you’ve given it extra energy, and that energy has to go somewhere.
Where it goes is mass. According to relativity, mass and energy are equivalent. So the more energy you put in, the greater the mass becomes. This is negligible at human speeds – Usain Bolt is not noticeably heavier when running than when still – but once you reach an appreciable fraction of the speed of light, your mass starts to increase rapidly.
Credit:
Tom Chivers on http://www.telegraph.co.uk/news/science/6546462/The-10-weirdest-physics-facts-from-relativity-to-quantum-physics.html
Hello Everyone! How was your day?
So i was researching on my youtube channel then i found out this channel which is soulpancake, and i found a lot of cool things in there especially the videos where the actor in it called himself kid president. Yes, he is a kid like literally a kid but, the things that he mentioned is really useful, somehow it makes me realize that i have been wasting my time after all the things happened in this life of mine.
and here's one the video, and believe me, it does inspirational.
A Pep Talk About The World - Kid President
credit: www.youtube.com/soulpancake
“The most interesting part in our life is to make something
impossibe become possible.” - Paulo Coelho
Kalimat di atas itu jika saya katakan sudah seperti motto hidup saya sendiri, saya belajar banyak dari kalimat di atas. Mungkin terlihat tidak seberapa jika kalian hanya membacanya sekali atau dua kali tapi, cobalah maknai kalimat di atas lebih dalam, jika memungkinkan bacalah kalimat itu dengan hati. Beliau yang menulisnya pun adalah tokoh idola saya, Paulo Coelho, ia seorang filsuf asal brazil yang sudah menginspirasi saya banyak hal tentang kehidupan melalui tulisan-tulisan di dalam bukunya.
Kenapa saya pilih jurusan Pendidikan Fisika? Sampai detik ini saya juga masih belum menmukan jawaban yang valid atas pertanyaan itu, bisa saja saya sebutkan hal ini adalah jalan Tuhan. Namun, saya berusaha mencoba mencari jawaban atas pertanyaan itu, entah melalui hal apapun yang jelas saya masih terus mencari.
Jujur boleh dikata, tak pernah sekalipun saya berkeinginan untuk menekuni bidang sains, apalagi di bidang pendidikan fisika yang kebanyakan orang menafsirkan lulusannya akan jadi guru fisika. Tidak pernah, saya tekankan hal itu sekali lagi. Sejak kecil, saya selalu bercita-cita untuk menjadi sesuatu, seseorang yang memiliki pekerjaan yang identik dengan jalan-jalan keliling dunia. Setelah SMA saya menemukan jawaban atas hal itu, berhubung saya juga menyukai hal-hal yang berbau internasional dan kemampuan saya pun bisa mendukung saya memutuskan untuk menekuni bidang International Relation. Dari situ saya bertekad untuk masuk jurusan Hubungan Internasional, saya pun bercita-cita untuk menjadi seorang Ambassador Indonesia di salah satu negara di luar sana dan hal itu tidak berubah sampai saya dihadapkan pada suatu pilihan.
Singkat cerita, saya di terima di Jurusan Pendidikan Fisika di UPI setelah perjuangan saya yang menurut saya cukup berat namun, hal itu tidak menjadi beban bagi saya yang punya prinsip 'Hidup itu di asikin aja, jangan dibikin pusing. Nyantai.' Kalau ditanya sekali lagi kenapa saya pilih fisika, mungkin sekarang saya sudah bisa menjawabnya meskipun jawaban saya terlihat kekanakan dan kasarnya bukanlah suatu jawaban. Dari dulu, saya paling tidak mnguasai pelajaran fisika, tidak jarang nilai tes saya berada di bawah rata-rata tapi, saya menikmati dunia fisika ini sendiri.Obsesi saya dalam bidang fisika adalah untuk menciptakan mesin waktu dan pintu kemana saja seperti di kartun Doraemon. Entah mengapa, saya menemukan suatu kenikmatan sendiri saat saya memahami satu per satu masalah yang ditawarkannya. Seperti tertantang, saya pun menekadkan diri untuk menggeluti bidang ini meski banyak orang bilang saya tidak cocok untuk menekuni hal berbau fisika ini. Seperti kalimat pembuka di atas, hal yang paling menarik itu untuk membuat sesuatu yang tidak mungkin menjadi mungkin.
Kenapa pendidikan? Saya juga masih bingung, karena saya ini tidak berminat untuk jadi guru. Jawaban yang bukan sebuah jawaban lagi dari saya itu semacam, 'masuk UPI kalo ga jurusan pendidikan kurang greget rasanya’ jadi ya saya nikmati dulu saja. Lalu, mau jadi apa saya di masa depan kalau bukan jadi guru? banyak. Lulusan pendidikan bukan berarti dia harus menjadi guru, menjadi pendidik tak hanya berarti menjadi guru, yang saya inginkan saya menjadi seorang pendidik dimanapun saya berada. Mendidik yang saya maksud pun bukan berarti mengajar jujur, saya tidak menyukai kata-kata 'mengajarkan seseorang’, kita ini sama-sama manusia, siapa kita untuk saling mengajari? Saa lbih suka kata-kata berbagi, dalam hidup ini kita saling berbagi untuk menambah pengetahuan dan pengalaman satu sama lain.
Kelak di masa depan saya, saya tidak terlalu berminat melanjutkan studi saya di bidang fisika, saya ingin kembali ke cita-cita awal saya, International Relation. Kemudian, mau dikemanakan ilmu-ilmu yang saya dapatkan di fisika ini? Hal ini akan saya jawab dengan sebuah pertanyaan lagi, apa salahnya menjadi seorang ambassador yang juga ahli fisika? Banyak orang-orang hebat di luar sana yang hidup tidak sesuai dengan bidang yang ia tekuni. Di jauh hari nanti, di masa yang akan datang nanti, saya sangat ingin menjadi seorang penulis, travelling keliling dunia sambil melakukan penelitian sendiri entah itu di bidang fisika atau apapun. Yang jelas saya ingin menciptakan sesuatu yang baru untuk dunia yang bisa membawa dunia ini jauh lebih baik dan saya menjadi salah satu alasannya. Kenapa saya terkesan bermimpi terlalu jauh? Satu hal lagi yang saya ingin saya bagi adalah perkataan dari seorang bernama Ashley Smith, 'Life is full of beauty. Notice it. Notice the bumble bee, the small chil, and the smiling faces. Smell the rain and feel the wind. Live your life to the fullest potential, and fight for your dreams.’
Semua hal yang saya ungkapkan di atas tentu saja hanya keinginan saya semata, mungkin sesuatu saat keinginan saya akan berubah atau Tuhan berkehendak lain. Satu hal yang pasti, saya menikmati berada di jurusan fisika ini, saya mendapatkan banyak hal tentang hidup dari fisika, meskipun saya masih baru di bidang ini, hati saya tersenyum ketika menekuninya. Meski banyak hal-hal yang kadang melemahkan tekad saya, saya percaya dengan keyakinan dan keinginan saya sendiri dan saya akan kembali bangun. Jadi apapun saya di masa depan, hal itu adalah salah satu bagian dari keinginan saya karena saya yakin, semua hal yang saya miliki sekarang pun berasal dari ketidak adaan. Oleh sebab itu, saya tidak ingin menghancurkan apa yang saya miliki dengan apa yang belum saya miliki karena apa yang belum saya miliki pun pada waktunya hanyalah sesuatu yang saya harapkan.
“You see things, and you say, ‘WHY?’ But I dream things that never were and I say ‘WHY NOT?’”