World Of Heroes And Legends

I eyed Natasha, or you know Black Widow suspiciously. It's been three weeks, my body still hurts but apparently no one else feels the same way. She's been explaining the Tai fighting stile, saying it suits me. But I spaced out when I began to think of theories behind this style.

Third POV;

Sandy ducked down on instinct as Natasha's leg swooped over her where her head used to be. Stumbling back she stared in shock at the trained assassin.

"Am I boring you, scientist?" Asks Natasha smiling at Sandy sending shivers down her spine.

"Nah, I was just theorizing about Tai-" Sandy began but was cut off with a punch sent to a vital point beneath her ear and under her jaw. (A part of the body that isn't covered by muscles and shows off some veins that aren't covered and can easily be the down fall of anyone.) Sandy raised her arms in front of her neck whilst moving backwards as fast as she could. Natasha's fist landed on her arms, causing her barely healed up bones to send waves of pain to her nerves. Gritting her teeth, Sandy placed her left foot behind her right one and sent a quick kick to Natasha's midsection using her left leg. Natasha blocked it by placing one of her legs behind her and pivoting on it and out of the way. Sandy went tumbling down and her ribs began to ache. Natasha's foot was placed on top of her neck, pinning her down.

"Give up?" Natasha taunted.

"No." Sandy answered and lifted her leg sending a backward kick up Natasha's b.u.t.t. "You know this isn't training this is fighting." She pointed out as she sat back up and began to stand up.

" This is my way of training, plus it'll be faster this way." Natasha says and sent a sweeping kick to Sandy's legs. In alarm Sandy widened her eyes and she hit the ground hard. Groaning she placed her arms around her midsection.

"Could you take it easier on me? I'm still injured ya know." Sandy says scowling.

" Since when does a scientist use slang?" Natasha asks.

" Since she got her b.u.t.t handed to her by a trained assassin." Sandy retorted as Natasha pulled her up. Natasha grinned slyly at that and moved her leg underneath Sandy's, Sandy saw this so she wrapped her arms around Natasha's neck, moving her other leg behind Natasha as soon as she went to trip Sandy both of them twirled around from the added weight and gravity by the sudden shift in movement from both sides and then they fell, Natasha underneath Sandy.

First Person POV;

"Why don't you guys take a break?" Tony asks, showing up for the first time since I woke up. I crossed my legs as I sat up and away from Natasha eyeing him. Natasha smiled brightly, or well faked a bright smile.

"You are in so much trouble, Tony." Natasha says as she walks out of the sparing room. The room went silent whilst I stared at Tony whom sifted uncomfortably.

"Why am I in trouble?" He asks. I stood up and walked over placing a hand on his shoulder pulling him down to my eye level, I went to whisper into his ear.

"You'll find out sooner or later, Tin foil." I say and walked away. Okay time to write that book about Quantum manipulation and theory. I entered the elevator and played around with it's base system making it move slower, happy with what I did I pushed the button for my floor and waited.

*Ding* A little ball of black jumped from the shelf next to the door and on top of my head, using his claws to keep himself there. I paused and sighed. This wolf cub sure is hostile towards me.

"Yame,could you please get down?" I begged as I walked to my computer. The wolf cub simply lifted its head and moved it to the side, as if to say:"Nah-ah." Shaking my head I sat down and took out an ice pack I'd prepared beforehand and placed it on my side. Cracking my fingers I began to type whilst the wolf cub began to move my hair around.

"Quantum theory is the theoretical basis of modern physics that explains the nature and behavior of matter and energy on the atomic and subatomic level. The nature and behavior of matter and energy at that level is sometimes referred to as quantum physics and quantum mechanics.

In 1900, physicist Max Planck presented his quantum theory to the German Physical Society. Planck had sought to discover the reason that radiation from a glowing body changes in color from red, to orange, and, finally, to blue as its temperature rises. He found that by making the assumption that energy existed in individual units in the same way that matter does, rather than just as a constant electromagnetic wave - as had been formerly assumed - and was therefore quantifiable, he could find the answer to his question. The existence of these units became the first assumption of quantum theory.

Planck wrote a mathematical equation involving a figure to represent these individual units of energy, which he called quanta. The equation explained the phenomenon very well; Planck found that at certain discrete temperature levels (exact multiples of a basic minimum value), energy from a glowing body will occupy different areas of the color spectrum. Planck assumed there was a theory yet to emerge from the discovery of quanta, but, in fact, their very existence implied a completely new and fundamental understanding of the laws of nature. Planck won the Nobel Prize in Physics for his theory in 1918, but developments by various scientists over a thirty-year period all contributed to the modern understanding of quantum theory.

The Development of Quantum Theory

In 1900, Planck made the assumption that energy was made of individual units, or quanta.

In 1905, Albert Einstein theorized that not just the energy, but the radiation itself was quantized in the same manner.

In 1924, Louis de Broglie proposed that there is no fundamental difference in the makeup and behavior of energy and matter; on the atomic and subatomic level either may behave as if made of either particles or waves. This theory became known as the principle of wave-particle duality: elementary particles of both energy and matter behave, depending on the conditions, like either particles or waves.

In 1927, Werner Heisenberg proposed that precise, simultaneous measurement of two complementary values - such as the position and momentum of a subatomic particle - is impossible. Contrary to the principles of classical physics, their simultaneous measurement is inescapably flawed; the more precisely one value is measured, the more flawed will be the measurement of the other value. This theory became known as the uncertainty principle, which prompted Albert Einstein's famous comment, "God does not play dice."

The Copenhagen Interpretation and the Many-Worlds Theory

The two major interpretations of quantum theory's implications for the nature of reality are the Copenhagen interpretation and the many-worlds theory. Niels Bohr proposed the Copenhagen interpretation of quantum theory, which asserts that a particle is whatever it is measured to be (for example, a wave or a particle), but that it cannot be assumed to have specific properties, or even to exist, until it is measured. In short, Bohr was saying that objective reality does not exist. This translates to a principle called superposition that claims that while we do not know what the state of any object is, it is actually in all possible states simultaneously, as long as we don't look to check.

To ill.u.s.trate this theory, we can use the famous and somewhat cruel analogy of Schrodinger's Cat. First, we have a living cat and place it in a thick lead box. At this stage, there is no question that the cat is alive. We then throw in a vial of cyanide and seal the box... " I typed. ( By the way this is a very shortened version of what Sandy really wrote, if I were to write down everything I know and did research on you'd probably be bored out of your minds. For those of you who are interested in it Google Quantum theory or manipulation.) After that I ran an editing sequence through the book's chapters and set it up for buying but unfortunately I needed to add my photo for some unknown reason,along with my name and surname. Stretching up I sighed in relief and hit the release button.