Sarcasm
Of all the places on earth, sa bahay lang yung tipong natulog ka lang or nawala ka lang saglit e yung gamit mo ay MAGICALLY mawawala.
Everytime nalang. Grabe ang saya saya.
Pagkalaki laki ng salamin ko nawala?
Natulog lang ako it vanished bigla?
Woooo. Dark magic. I’m impressed!
9 Ways to Find Peace of Mind in Tough Times
1. Learn to trust yourself.
“It isn’t as bad as you sometimes think it is. As you heal and grow, it will all work out. Relax and trust yourself.”
Repeat that in your mind every morning. Because the truth is, it all works out in the end. Put your full trust in yourself by following your intuition and doing your best, and then move forward one step at a time with faith and confidence in the future. Life will not forsake you. Love, persistence and hard work combined rarely lead a person astray in the long run.
If you have faith in your abilities, if you stay true to the path that feels right, if you channel your passion into action, you will ultimately achieve a breakthrough. In other words, as soon as you trust yourself you will know how to heal and grow.
2. Focus on what you’re learning.
Mistakes and setbacks are simply a form of practice.
If the road is easy and free of bumps, you’re likely going the wrong way. The bumps in the road teach you what you need to know to progress down a path that is all your own. Sometimes things have to go wrong in order to go right. Sometimes you need to change a flat tire or two before you can move on.
Bottom line: Your journey isn’t supposed to be easy, it’s supposed to be worth it. To never struggle is to never grow. There is no perfectly smooth road to anyplace worth going.
3. Ease your expectations.
Life is under no obligation to give you exactly what you expect. Whatever it is you’re seeking will rarely ever come in the form you’re expecting. Don’t miss the silver lining because you were expecting gold.
You must see and accept things as they are instead of as you hoped, wished, or expected them to be. Just because it didn’t turn out like you had envisioned, doesn’t mean it isn’t exactly what you need to get to where you ultimately want to go.
Hindi ako damit sa mall na pagkatapos mo sukatin di mo na kukunin.
(Source: beben-eleben)
Kapag gustong makipagbalikan ng ex mong mahal na mahal mo…
Sa una nakakakilig pero maiisip mong hindi ka tanga.
(Source: beben-eleben)
Malabong salamin plus malabong camera equals wasted picture HAHAHA.
Makapag picture lang eh ano. Sinamantala habang nsa CR si Acky XD
Walang kasawaang S&R. And up until now na wi wierduhan pa rin sa akin si Acky the way I eat that pizza na nilalagyan ko pa ng Mayo at Ketchup on top. Yummy kaya. HIHI. Hindi ko lang na picture-ran yung ice cream. HIHI.
:3
Anyways. Yung relo (na hindi ko rin na picture-ran for remembrance) eh nagustuhan ko na siya. Kasibinigay ko na sa kapatid kong bunso. (awww) HAHAHA. Yun lang.. May mai post lang :P
1008.) There’s nothing wrong about being happy especially when you know it’s about time that you deserve to be.
(Source: ilyunlimited)
Olats ka man sa pag-ibig. Kung masaya naman at masagana ang buhay mo. Wala dapat ipag-alala dun :) Darating yan. Maniwala ka.
(Source: matabangutak, via matabangutak)
10 Incredible Ways Technology May Make Us Superhuman
Brain/Computer Interface
A “BCI” is exactly what it sounds like—a communication link between the human brain and an external device. BCIs have been the realm of sci-fi for decades, but believe it or not this hasn’t been speculative technology for some time—there are many different types of completely functional interfaces for a variety of applications, and the earliest devices of this type to be tested in humans showed up in the mid ’90s. And, it’s safe to say that the research is not slowing down.It has been known since the 1920s that the brain produces electrical signals, and it was speculated since then that those signals might be directed to control a mechanical device—or vice versa. Since research into BCIs began in earnest in the ’60s (with monkeys as the usual test subjects), many different models with different levels of “invasiveness” depending upon the application have been produced, with research progressing particularly quickly within the last 15 years or so.Most applications involve either the partial restoration of sight or hearing, or the restoration of movement to paralysis sufferers. One completely non-invasive prototype was demonstrated to enable a paralyzed stroke victim to operate a computer in early 2013. In a nutshell, the device picks up the eyes’ signals that are routed to the back of the brain, and analyzes the different frequencies to determine what the patient is looking at—enabling them to move a cursor on a screen using only eye movements, using a device that amounts to a helmet.
Powered Exoskeletons
The general public’s concept of the powered exoskeleton is more like “powered battle armor” on account of the Robert Heinlein novel “Starship Troopers” and also a very popular character from an increasingly pervasive multimedia franchise. The tech that’s actually being developed is less geared toward battling giant robots and invading aliens, and more toward either restoring mobility to the disabled, or augmenting endurance and load-carrying capacity.For example, one company manufactures a 50 pound aluminum and titanium suit called the Ekso that has seen use in dozens of hospitals around the U.S. It has made people with paralyzing spinal cord injuries able to walk, an application that was once too impractical due to the bulk and weight of such a suit.The same technology was licensed by Lockheed Martin for their Human Universal Load Carrier (HULC, oddly enough), which has been extensively tested and may be deployed for military use within a year. It enables a normally conditioned man to carry a 200 pound load at ten miles per hour, pretty much indefinitely, without breaking a sweat. While the Ekso takes pre-programmed steps for its users, the HULC uses accelerometers and pressure sensors to provide a mechanical assist to the user’s natural movements.We should note that a Japanese firm has produced a similar device with medical applications called “Hybrid Assistive Limb” or HAL, which—as the name of a famously murderous machine—we’re thinking might not have been such a hot idea. Oh, and the company’s name? Cyberdyne. We are not kidding.
Neural Implants
A neural implant is any device which is actually inserted inside the grey matter of the brain. While a neural implant can be a BCI and vice versa, the terms are in no way synonymous. What exoskeletons do for the body, implants do for the brain—while most are meant to repair damaged areas and restore cognitive function, others are meant to give the brain a power assist or a pathway to external devices.The use of neural implants for deep brain stimulation—the transmission of regularly spaced electrical impulses to specific regions of the brain—has been approved by the Food and Drug Administration to treat various maladies, with the first approval coming in 1997. It has been proven effective at treating Parkinson’s disease and dystonia, and has also been used to treat chronic pain and depression with varying degrees of efficacy.Thus far, the most commonly used neural implants are cochlear implants (approved by the FDA in 1984) and retinal implants, both pioneered in the 1960s and proven effective at partially restoring hearing and vision, respectively. Fun fact: the inventor of the cochlear implant was Dr. House—William House, who passed away in 2012, and whose brother Howard was also a physician.
