Hydrogen Best Quotes

Sometimes what goes without saying is best said anyway.

Corran: "I thought Commander Antilles was in that TIE. I mean it had to be someone as good as him to get you three" Nawara: "Apparently he is that good" Rhysati: "He flew circles around me" Ooryl: "At least you saw him. He caught Ooryl as Ooryl fixed on his wingman. Ooryl is free hydrogen in simspace. That man is very good." Corran: "Sure, but who is he?" Rhysati: "What difference does it make who he is?" Corran: "Rhys, he shot up three of our best pilots, had me dead in space, and he says he's a bit RUSTY!

I was elated! This was the best plan ever! Not only was I clearing out the hydrogen, I was making more water! Everything went great right up to the explosion.

things were created by God and for God, no exceptions. Every note of music. Every color on the palette. Every flavor that tingles the taste buds. Arnold Summerfield, the German physicist and pianist, observed that a single hydrogen atom, which emits one hundred frequencies, is more musical than a grand piano, which only emits eighty-eight frequencies. Every single atom is a unique expression of God’s creative genius. And that means every atom is a unique expression of worship. According to composer Leonard Bernstein, the best translation of Genesis 1:3 and several other verses in Genesis 1 is not “and God said.” He believed a better translation is “and God sang.” The Almighty sang every atom into existence, and every atom echoes that original melody sung in three-part harmony by the Father, Son, and Holy Spirit. Did you know that the electron shell of the carbon atom produces the same harmonic scale as the Gregorian chant? Or that whale songs can travel thousands of miles underwater? Or that meadowlarks have a range of three hundred notes? But the songs we can hear audibly are only one instrument in the symphony orchestra called creation. Research in the field of bioacoustics has revealed that we are surrounded by millions of ultrasonic songs. Supersensitive sound instruments have discovered that even earthworms make faint staccato sounds! Lewis Thomas put it this way: “If we had better hearing, and could discern the descants [singing] of sea birds, the rhythmic tympani [drumming] of schools of mollusks, or even the distant harmonics of midges [flies] hanging over meadows in the sun, the combined sound might lift us off our feet.” Someday the sound will lift us off our feet. Glorified eardrums will reveal millions of songs previously inaudible to the human ear.

For Lord knows what reason — perhaps lingering undergraduate fascination — this young man decided beer, not hydrogen, was the best liquid to shoot the atomic gun at. [...] Unfortunately for science, Glaser later said, the beer experiments flopped.

Liberty which is paraded in the West as a holy grail to keep the masses quiet, descends on their necks as a rubber truncheon when they organise to demand their real liberties, their basic rights to work, to land, to a secure future. There are hundreds of millions of people in the world today who have decided that liberty is something to do with everyday life and work. They are not interested in a liberty of the press to promote religious and racial hatreds; not interested in a liberty for publishers to flood bookstalls with pornographic literature; not interested in the liberty of scientists to devote their best brains to inventing hydrogen bombs or other means of destroying the world; not interested even in the theoretical liberty of the ballot box to decide between two groups of political parties both bent on maintaining the privileges of one tiny group of people over the great majority of the population. If the same advance is made in the next twenty years as has been made in the past five years in bringing real liberties to the workers and peasants of the People's Democracies, and if the Western powers give up their morbid plans to destroy the People's Democracies by force of arms and the hydrogen bomb, the whole population will be enjoying liberties of a quality not yet dreamed of in the Western world. [From Chapter 16 of People's Democracies (World Unity Publications, 1951), pp. 277-287.]

Researchers at Shanghai Jiao Tong University in China, Saga University in Japan, and the University of California, Davis, proposed creating an artificial inorganic leaf modeled on the real thing. They took a leaf of Anemone vitifolia, a plant native to China, and injected its veins with titanium dioxide-a well-known industrial photocatalyst. By taking on the precise branching shape and structure of the leaf's veins, the titanium dioxide produced much higher light-harvesting ability than if ti was used in a traditional configuration. The researchers found an astounding 800 percent increase in hydrogen production as well. The total performance was 300 percent more active than the world's best commercial photocatalysts. When they added platinum nanoparticles to the mix, it increased activity by a further 1,000 percent.

(1 = best, 11 = worst) 1. Raw fruits and vegetables (preferably organic) such as apples, grapes, melons, bananas, avocados, romaine lettuce, cucumbers, carrots, kale, tomatoes, etc.; raw honey, stevia (a natural sweetener) 2. Lightly-steamed, low-starch vegetables (all vegetables other than white potatoes, acorn and butternut squash, and pumpkin); pure maple syrup, agave nectar *Note that corn and legumes are starches, not vegetables. 3. Organic raw nuts and seeds (almonds, pine nuts, walnuts, macadamia nuts, sesame seeds, sunflower seeds, etc.) 4. Raw stone-pressed or cold-pressed plant oils (especially olive oil, though hemp seed and flax seed oils are also acceptable) 5. Cooked starchy vegetables (sweet potatoes, butternut and acorn squash, pumpkin, etc.) 6. Raw unpasteurized dairy products (particularly from goats and sheep) 7. Whole grains (brown rice, millet, whole wheat, buckwheat, etc.) 8. Pasteurized dairy and animal flesh (preferably limited to organic fish and minimal organic meat and poultry products) 9. All non-whole grain flour products (white bread, white rice, white pasta, white pizza dough, flour tortillas, etc.); sugar (white sugar, brown sugar, corn syrup, etc.) 10. Cooked animal fats/hydrogenated oils (lard, cooked oils, etc.), mainstream meats, poultry; soy products 11. Chemicals, artificial coloring and sweeteners (aspartame, saccharine, unnatural additives of all kinds)

Stars are bright, hot, rotating masses of gas which emit large quantities of light and heat as a result of nuclear reactions. Most newly-forming large stars begin to collapse under the weight of their own gravitational pull. That means that their centres are hotter and denser. When the matter in the centre of the star is sufficiently heated-when it reaches at least 10 million degrees Celsius (18 million degrees Fahrenheit)-nuclear reactions begin.56 What happens inside a star is that with enormous energy (fusion), hydrogen turns into helium. Nuclear fusion takes the particles that make up hydrogen and sticks them together to make helium (1 helium atom is made from 4 hydrogen atoms). In order to make the protons and neutrons in the helium stick together, the atom gives off tremendous energy. The energy released in the process is radiated from the surface of the star as light and heat. When the hydrogen is consumed, the star then begins to burn with helium, in exactly the same way, and heavier elements are formed. These reactions continue until the mass of the star has been consumed. However, since oxygen is not used in these reactions inside stars, the result is not ordinary combustion, such as that takes place when burning a piece of wood. The combustion seen as giant flames in stars does not actually derive from fire. Indeed, burning of just this kind is described in the verse. If one also thinks that the verse refers to a star, its fuel and combustion without fire, then one can also think that it is referring to the emission of light and mode of combustion in stars. (Allah knows best.)

For unknown ages after the explosive outpouring of matter and energy of the Big Bang, the Cosmos was without form. There were no galaxies, no planets, no life. Deep, impenetrable darkness was everywhere, hydrogen atoms in the void. Here and there, denser accumulations of gas were imperceptibly growing, globes of matter were condensing-hydrogen raindrops more massive than suns. Within these globes of gas was kindled the nuclear fire latent in matter. A first generation of stars was born, flooding the Cosmos with light. There were in those times, not yet any planets to receive the light, no living creatures to admire the radiance of the heavens. Deep in the stellar furnaces, the alchemy of nuclear fusion created heavy elements from the ashes of hydrogen burning, the atomic building blocks of future planets and lifeforms. Massive stars soon exhausted their stores of nuclear fuel. Rocked by colossal explosions, they returned most of their substance back into the thin gas from which they had once condensed. Here in the dark lush clouds between the stars, new raindrops made of many elements were forming, later generation of stars being born. Nearby, smaller raindrops grew, bodies far too little to ignite the nuclear fire, droplets in the interstellar mist on their way to form planets. Among them was a small world of stone and iron, the early Earth. Congealing and warming, the Earth released methane, ammonia, water and hydrogen gases that had been trapped within, forming the primitive atmosphere and the first oceans. Starlight from the Sun bathed and warmed the primeval Earth, drove storms, generated lightning and thunder. Volcanoes overflowed with lava. These processes disrupted molecules of the primitive atmosphere; the fragments fell back together into more and more complex forms, which dissolved into the early oceans. After a while the seas achieved the consistency of a warm, dilute soup. Molecules were organized, and complex chemical reactions driven, on the surface of clay. And one day a molecule arose that quite by accident was able to make crude copies of itself out of the other molecules in the broth. As time passed, more elaborate and more accurate self replicating molecules arose. Those combinations best suited to further replication were favored by the sieve of natural selection. Those that copied better produced more copies. And the primitive oceanic broth gradually grew thin as it was consumed by and transformed into complex condensations of self replicating organic molecules. Gradually, imperceptibly, life had begun. Single-celled plants evolved, and life began generating its own food. Photosynthesis transformed the atmosphere. Sex was invented. Once free living forms bonded together to make a complex cell with specialized functions. Chemical receptors evolved, and the Cosmos could taste and smell. One celled organisms evolved into multicellular colonies, elaborating their various parts into specialized organ systems. Eyes and ears evolved, and now the Cosmos could see and hear. Plants and animals discovered that land could support life. Organisms buzzed, crawled, scuttled, lumbered, glided, flapped, shimmied, climbed and soared. Colossal beasts thundered through steaming jungles. Small creatures emerged, born live instead of in hard-shelled containers, with a fluid like the early ocean coursing through their veins. They survived by swiftness and cunning. And then, only a moment ago, some small arboreal animals scampered down from the trees. They became upright and taught themselves the use of tools, domesticated other animals, plants and fire, and devised language. The ash of stellar alchemy was now emerging into consciousness. At an ever-accelerating pace, it invented writing, cities, art and science, and sent spaceships to the planets and the stars. These are some of the things that hydrogen atoms do, given fifteen billion years of cosmic evolution.

Sean was watching me, though. And Sean wiped the bryozoa residue from his hand across my stomach. This was the third time a boy had ever touched my bare tummy, and I’d had enough. Through gritted teeth, like any extra movement might spread the bryozoa further across my skin, I told him, “I like you less than I did.” I bailed over the side of the boat-the side opposite where the bryozoa returned to its native habitat. Deep in the warm water, I scrubbed at my tummy with both hands. A combination of bryozoa waste and Sean germs: it was the best of times, it was the worst of times. Leaning toward worst, because now I had slime on my hands. Or maybe this was psychosomatic. Holding my hands open in front of me in the water, I didn’t see any slime. I rubbed my hands together anyway. Something dove into the water beside me in a rush of bubbles. I came up for air. Sean surfaced, too, tossing sparkling drops of water from his hair. “You still like me a lot, though, right?” “No prob. Green is the new black.” Giving up on getting clean, I swam a few strokes back toward the platform to get out again. What I needed was a shower with chlorinated water and disinfectant soap. I might need to bubble out my belly button with hydrogen peroxide. “What if I made it up to you?” He splashed close behind me. “What if I helped you get clean? We don’t want you dirty.” He moved both hands around me under the water, up and down across my tummy. It was the fourth time a boy had touched my tummy! And it was very awkward. He bobbed so close behind me that I had a hard time treading water without kicking him. I needed to choose between flirting and breathing. Cameron and my brother leaned over the side of the boat and gaped at us, which didn’t help matters. I’d been afraid of this. Flirting with Sean was no fun if the other boys acted like we were lepers. Well, okay, it was fun, but not as fun as it was supposed to be. Obviously I would need to give McGullicuddy the little dolphin talk. I wasn’t sure I could do this with Cameron-Cameron and I didn’t have heart-to-heart convos-but I might need to make an exception, if he continued to watch us like we were a dirty movie on Pay-Per-View (which I’d also seen a lot of. Life with boys). BEEEEEEEEEEEEEEEE- Sean and I started and turned toward the boat. Still behind the steering wheel, Adam had his chin in his hand and his elbow on the horn. -EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE Damn it! I turned around to face Sean and gave him a wry smile, but he’d already taken his hands away from my tummy. The horn really ruined the mood. -EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE Sean hauled himself up onto the platform. I followed close behind him, and (glee!) he put out a hand to help me. Cameron and my brother yelled at Adam. -EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEP. “Oh!” Adam said as if he’d had no idea he’d been laying on the horn. He looked at his elbow like it belonged to someone else. I was in the boat with Sean now, and he was still holding my hand. Or, maybe I was still clinging to his hand, but this is a question of semantics. In any case, I pulled him by the hand past the other boys to the bow. We didn’t have privacy. There was no privacy on a wakeboarding boat. At least we had the boat’s windshield between us and the others. As I turned to sit down on the bench, I stuck out my tongue at Adam behind the windshield. He crossed his eyes at me.

Power generation through renewable energy has to be increased from 5 per cent to 28 per cent. Dependence on fossil fuels as primary energy source needs to be brought under 50 per cent from the present 75 per cent. Mandating the use of ethanol from 10 per cent to 20 per cent and the associated public policy for ethanol development by the sugarcane industry is also required. There is also a need for a sustainable biofuel policy for generating 60 million tonnes of biofuel, along with the use of alternate sources such as emulsification, bio-algae and hydrogen fuel.

The laws of physics—as we understand them—depend on constants. If those constants were even slightly different, this universe would not exist—or would be of a different nature completely. For example, omega, the name the humans used for the universal density parameter, governs gravity and the expansion energy in the universe. The value of omega is one. If it were any stronger, the universe would have collapsed before life could have evolved. Alternatively, a lower value would have resulted in weaker gravity, potentially preventing stars from being formed. “The same is true for epsilon—the measure of the efficiency of fusion of helium from hydrogen. It’s also true for lambda—the cosmological constant. Most alarmingly, D, the number of spatial dimensions in spacetime, is three. If D were a different number—that is, if the spacetime we experience were defined by two or four dimensions, or any other number—the universe would be a radically different place.” “What are you telling me?” “It is highly probable that the grid we created isn’t the first one ever created.” “You believe this universe is a grid virtualization instance?” “I believe those are the terms we have that best describe it. However, it’s likely that the true nature of the universe is something else entirely, a reality we are unable to fully understand

Another new alternative possibility is adding hydrogen-rich water to your daily diet, best taken on an empty stomach. The research is in its infancy, yet the benefits are all positive, especially around fibrotic tissue and complete health.

Carlton Church - Natural Disaster Survival Kit Floods, earthquakes, tsunamis, super typhoons and fires. These types of news appear more frequently within this year than the previous ones. Old people nowadays even complain of the changing world, followed by endless accounts of peaceful living during their time. Are these all effects of global warming? Is our Mother Earth now starting to get angry of what we, humans, have done to its resources? Perhaps. We can never predict when a disaster would strike our home. And since you are still reading this, it is safe to assume that you are still able breathe and live your life. The best thing we can do right now is prepare. There is no use panicking only when the warning arrives. It is better to give gear up now and perhaps survive a few more years. Preparation should not be too extravagant. And it doesn’t have to be a suitcase filled with gas masks and whatnot. Remember that on the face of disaster, having a large baggage would be more of a burden that survival assistance. Pack light. You’ll only need a few of the following things: 1. Gears, extra batteries and supplies. Multi-purpose tool/knife, moist towelettes, dust masks, waterproof matches, needle and thread, compass, area maps, extra blankets and sleeping bags should all should be part of your emergency supply kit. It is also important to bring extra charge for your devices. There are back-up universal batteries available for most cell phones that can offer an extra charge. 2. Important paperwork and insurance documents. When tsunami hit Japan last 2011, all documents were washed up resulting to chaos and strenuous recovery operations. Until now, many citizens linger in the streets of Tokyo in the hopes that most technologically advanced city in the world can reproduce certificates, diplomas and other legal and important written document stolen by water. This is why copies of personal documents like a medication list, proof of address, deed/lease to home, and insurance papers, extra cash, family photos and emergency contact information should be included in your survival kits. 3. First Aid Kit Store your first aid supplies in a tool box or fishing tackle box so they will be easy to carry and protected from water. Inspect your kit regularly and keep it freshly stocked and do not use cheap and fraudulent ones. It is also helpful to note important medical information and most prescriptions that can be tucked into your kit. Medical gauges, bandages, Hydrogen peroxide to wash and disinfect wounds, individually wrapped alcohol swabs and other dressing paraphernalia should also be useful. Read more at: carltonchurch.org

Others reckoned that as long as the termination was instant, with no warning and therefore no chance that those about to be switched off could suffer, then it didn’t really matter. The wretches hadn’t existed, they’d been brought into existence for a specific, contributory purpose, and now they were nothing again; so what? Most people, though, were uncomfortable with such moral brusqueness, and took their responsibilities in the matter more seriously. They either avoided creating virtual populations of genuinely living beings in the first place, or only used sims at that sophistication and level of detail on a sustainable basis, knowing from the start that they would be leaving them running indefinitely, with no intention of turning the environment and its inhabitants off at any point. Whether these simulated beings were really really alive, and how justified it was to create entire populations of virtual creatures just for your own convenience under any circumstances, and whether or not – if/once you had done so – you were sort of duty-bound to be honest with your creations at some point and straight out tell them that they weren’t really real, and existed at the whim of another order of beings altogether – one with its metaphorical finger hovering over an Off switch capable of utterly and instantly obliterating their entire universe… well, these were all matters which by general and even relieved consent were best left to philosophers. As was the ever-vexing question, How do we know we’re not in a simulation? There

The laws of economics tell us that atoms are expensive if they're rare, and the laws of physics tell us that they're rare if they require unusually high temperatures to make. Putting this together tells us that if atoms could talk, the priciest ones would tell the best stories. Garden-variety atoms such as carbon, nitrogen and oxygen (which together with hydrogen make up 96% of your body weight) are so cheap because garden-variety stars such as our Sun can produce them in their death throes, after which they can form new solar systems in a cosmic recycling event. Gold, on the other hand, is produced when a star dies in a supernova explosion so violent and rare that it, during a fraction of a second, releases about as much energy as all the other stars in our observable Universe combined. No wonder making gold eluded the alchemists.

The core physics relies on a process known as quantum tunneling. Imagine a particle, an electron for instance, encountering a solid barrier, say a slab of steel ten feet think, that classical physics predicts it can't penetrate. A hallmark of quantum mechanics is that the rigid classical notion of "can't penetrate" often translates into the softer quantum declaration of "has a small but nonzero probability of penetrating." The reason is that the quantum jitters of a particle allow it, every so often, to suddenly materialize on the other side of an otherwise impervious barrier. The moment at which such quantum tunneling happens is random; the best we can do is predict the likelihood that it will take place during one interval or another. But the math says that if you wait long enough, penetration through just about any barrier will happen. And it does happen. If it didn't, the sun wouldn't shine: for hydrogen nuclei to get close enough to fuse, they must tunnel through the barrier created by the electromagnetic repulsion of their protons.

Actions Summary The following list of new institutions, policies and actions is my best effort at envisaging what is required for Australia to survive the climate emergency. • A National Target and Plan for 95% or more of electricity to be supplied by renewables by 2030. • State plans to electrify all transport, beginning with the swift retirement of non-electric buses and including a plan for 50% of all new car sales to be EVs by 2030. • Implement planned changes to how we work and live so as to minimise unnecessary travel. • A plan for clean hydrogen to replace bunker fuel in shipping. • A plan for the adoption of e-fuels for aviation, with an aim to have all domestic flights running on e-fuel by 2030. • A National Commission for Climate Adaptation, with a Coastal Defence Fund and a Commission for Primary Production operating under its umbrella. • A National Initiative on Drawdown Innovation to provide leadership in early stage research and fund some on-ground projects. • The Federal Government to help convene a Global Working Group on Geoengineering.

Celebrate vegetables and fruits: Cover half of your plate with them. Aim for color and variety. Keep in mind that potatoes don’t count (see “The Spud Is a Dud” on page 167). THE HARVARD HEALTHY EATING PLATE Figure 1. The Harvard Healthy Eating Plate was created to address deficiencies in the USDA’s MyPlate. It provides simple but detailed guidance to help people make the best eating choices. • Go for whole grains—about one-quarter of your plate. Intact and whole grains, such as whole wheat, barley, wheat berries, quinoa, oats, brown rice, and foods made with them, have a milder effect on blood sugar and insulin than white bread, white rice, and other refined grains (see chapter six). • Choose healthy protein packages—about one-quarter of your plate. Fish, chicken, beans, soybeans, and nuts are all healthy, versatile protein sources. Limit red meat, and try to stay away from processed meats such as bacon and sausage (see chapter seven). • Use healthy plant oils, such as olive, canola, soy, corn, sunflower, and peanut, in moderation. Stay away from foods containing partially hydrogenated oils, which contain unhealthy artificial trans fats (see “Trans fats,” page 83). If you like the taste of butter or coconut oil, use them when their flavor is important but not as primary dietary fats. Keep in mind that low-fat does not mean healthy (see chapter five).

General Wound Cleaning Note: A rescuer should wash his or her hands and put on protective gloves and protective eyewear before cleaning an open wound. All wounds acquired in a wilderness environment should be regarded as contaminated and, therefore, require cleansing to prevent infection and promote healing. There are three effective methods of wound cleaning available to the WFR: You can scrub, irrigate, and debride. Scrubbing: Disinfectants (such as isopropyl alcohol, povidone-iodine, and hydrogen peroxide) and soaps and detergents should not be put directly into wounds because they can damage viable tissue and may actually increase the incidence of wound infection. These substances may be used to scrub around a wound prior to wound cleaning, with soap and water working as well as anything else. Irrigating: The most effective and practical method of removing bacteria and debris from a wound involves using a high-pressure irrigation syringe. Irrigation syringes that supply adequate pressure are available commercially in quality first-aid kits. Without an irrigation syringe, you can put water in a plastic bag, punch a pinhole in the bag, and squeeze the water out forcefully, or you can melt a pinhole in the center of the lid of a water bottle with a hot needle and squeeze the water out forcefully. These and other improvised methods are not nearly as effective as an irrigation syringe, but they may be the best you can do. Simply rinsing or soaking a wound is inadequate to remove bacteria. The cleanest water available, most preferably water disinfected for drinking, should be used for irrigating. The tip of the irrigating device should be held 1 to 2 inches above the wound surface, and the plunger of the syringe forcefully depressed. Be sure to tilt the wound to irrigate contaminants out and away from the wound. The volume of irrigation fluid required varies with the size of the wound and the degree of contamination, but plan on using at least a half liter of water. Note: Wound irrigation is the single most important factor in preventing infection.

Collisions. Ideas mate with other ideas to produce idea children. Read other ideas. Compare your new ideas with your old ideas. After the Big Bang, the rest of the universe was basically created from collisions. Hydrogen atoms collided to form helium atoms, and on and on until all of the elements were created. Dead stars collided with asteroids to create planets and water and ultimately life. Collisions are the fundamental life-giving processes of the universe. Ideas are no different. The best ideas come from collisions between newer and older ideas.