Friday

Hc Kurtz - Searching For (Original Mix)



you know, the answers you have been, "Searching For" are always, right in front of your eyes, you just have to look at it, from a different perspective as, standardz, hahahahahahaha, :) #edio

Breger - In Terms Of (Original Mix)



you know, i don't like to talk, "In Terms Of", technical wisdom, like i just have A it takes up more time per post, than i have and, B most people don't understand the advanced concepts, such as the pyramids, being part of a giant mineral battery, that is constantly being charged by the Earth, and it's subsequent placement on earth isn't by chance, its part of an ancient power system, that creates energy and ozone as, standardz, hahahahahahaha, :) #edio

Steve Sai - Egogirl (Original Mix)



you know, i'm not easily impressed by a, "Egogirl", (Ego Girl), actions speak infinitely more louder, than words ever can as, standardz, hahahahahahaha :) #edio

Steve Sai - Spacefrogs (Phaedon Remix)



you know, there is life floating aimlessly in space, maybe not, "spacefrogs", but defiantly space jellies, and single cell organisms and water bears, (tardigrades), and other semi aquatic and microbial life as, standardz, hahahahahaha, :) #edio

Francesco Squillante - Make It Loud (Original Mix)



As discussed in the previous unit of The Physics Classroom Tutorial, a wave can be described as a disturbance that travels through a medium, transporting energy from one location to another location. The medium is simply the material through which the disturbance is moving; it can be thought of as a series of interacting particles. The example of a slinky wave is often used to illustrate the nature of a wave. A disturbance is typically created within the slinky by the back and forth movement of the first coil of the slinky. The first coil becomes disturbed and begins to push or pull on the second coil. This push or pull on the second coil will displace the second coil from its equilibrium position. As the second coil becomes displaced, it begins to push or pull on the third coil; the push or pull on the third coil displaces it from its equilibrium position. As the third coil becomes displaced, it begins to push or pull on the fourth coil. This process continues in consecutive fashion, with each individual particle acting to displace the adjacent particle. Subsequently the disturbance travels through the slinky. As the disturbance moves from coil to coil, the energy that was originally introduced into the first coil is transported along the medium from one location to another, A sound wave is similar in nature to a slinky wave for a variety of reasons. First, there is a medium that carries the disturbance from one location to another. Typically, this medium is air, though it could be any material such as water or steel. The medium is simply a series of interconnected and interacting particles. Second, there is an original source of the wave, some vibrating object capable of disturbing the first particle of the medium. The disturbance could be created by the vibrating vocal cords of a person, the vibrating string and soundboard of a guitar or violin, the vibrating tines of a tuning fork, or the vibrating diaphragm of a radio speaker. Third, the sound wave is transported from one location to another by means of particle-to-particle interaction. If the sound wave is moving through air, then as one air particle is displaced from its equilibrium position, it exerts a push or pull on its nearest neighbors, causing them to be displaced from their equilibrium position. This particle interaction continues throughout the entire medium, with each particle interacting and causing a disturbance of its nearest neighbors. Since a sound wave is a disturbance that is transported through a medium via the mechanism of particle-to-particle interaction, a sound wave is characterized as a mechanical wave. A vibration powered generator is a type of electric generator that converts the kinetic energy from vibration into electrical energy. The vibration may be from sound pressure waves or other ambient sources. Vibration powered generators usually consist of a resonator which is used to amplify the vibration source, and a transducer mechanism which converts the energy from the vibrations into electrical energy. The transducer usually consists of a magnet and coil or a piezoelectric crystal, Piezoelectric based generators use thin membranes or cantilever beams made of piezoelectric crystals as a transducer mechanism. When the crystal is put under strain by the kinetic energy of the vibration a small amount of current is produced thanks to the piezoelectric effect. These mechanisms are usually very simple with few moving parts, and they tend to have a very long service life. This makes them the most popular method of harvesting the energy from vibrations, These mechanisms can be manufactured using the MEMS fabrication process, which allows them to be created on a very small scale. The ability to make piezoelectric generators on such a small scale, is the main advantage of this method over the electromagnetic generators, especially when the generator, is being developed to power microelectronic devices, and piezoelectric systems have a long service life as, standardz, hahahahahahaha, :) #edio

Antony PL, Paul S - Elememts (Vernon Bara Remix)



did you know, if you take certain geological, "Elements", (each of more than one hundred substances that cannot be chemically interconverted or broken down into simpler substances and are primary constituents of matter. Each element is distinguished by its atomic number, i.e., the number of protons in the nuclei of its atoms). and separate them by + and _ charge you can create a mineral battery, which will last as long as the rocks do, and in a sealed container, they're not likely to erode anytime soon as, standardz, hahahahahaha, :) #edio
🌏☮️✌️😇🖖😉🌄♻️🌍
https://ello.co/edio1
www.ediobangers.blogspot.co.uk/
https://plus.google.com/+ediobangerz
www.facebook.com/ruffneckbase/ 
https://www.facebook.com/ruffneckbass01/
www.ediovision.blogspot.com/
www.facebook.com/ediovision/
www.facebook.com/thematrixhasyouwakeup/
www.facebook.com/peelingbacktheveil/
https://www.facebook.com/RealtimehdEarthviewingexperiment/
also i have a YouTube page, it has a copy of all my latest tracks,5000+ and if you keep going back, there's pretty much every track, I've ever posted, just go to liked video's, and hit play all, and then you won't have to keep pressing play, but unfortunately, you wont get to read, what i write, but you will get access to a constant stream of tracks, for over a 2 years solid play time, 
but you know, ya can't have it all looolz ;)
https://www.youtube.com/channel/UC-jBy5vUUUTItELLXQbcE9w
🌏☮️✌️😇🖖😉🌄♻️🌍

Jay de Lys - Moves (Original Mix)



you know, i got all the, "Moves", for you as, standardz, hahahahahaha, :) #edio

Fhaken, Raul Figueroa - Fotosintesis (Original Mix)



you know, we need to start replanting the forests so that we can help boost the Earths natural systems for cleansing itself, like how plants use, "Fotosintesis", (photosynthesis, the process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen as a byproduct), not choking the environment with harmful nano filaments, Nanotechnology has gained a great deal of public interest due to the needs and applications of nano-materials in many areas of human endeavors including industry, agriculture, business, medicine and public health. Environmental exposure to nano-materials is inevitable as nano-materials become part of our daily life, and as a result, nano-toxicity research is gaining attention. This review presents a summary of recent research efforts on fate, behavior and toxicity of different classes of nano-materials in the environment. A critical evaluation of challenges and future needs for the safe environmental nanotechnology has been discussed. Many scientists consider nanotechnology as the next logical step in science, integrating engineering with biology, chemistry, medicine, and physics. When the dimensions of a material become very small, its physical and chemical properties can become very different from those of the same material in bulk form. Current nanotechnology is building devices of microscopic or even molecular size, which will potentially be benefiting medicine, environmental protection, energy, and space exploration. With our ever increasing knowledge of nano-science and the ability to engineer new products and services, it would not be far before the entire history can be compressed inside our pockets or the system extended by specially designed molecules that mimic the living systems. In the last couple of years, the term “Nanotechnology” has been inflated and has almost become synonymous for things that are innovative and highly promising. Nanotechnology enables us to create functional materials, devices, and systems by controlling matters at the atomic and molecular scales, and to exploit novel properties and phenomena. Substantially smaller size, lower weight, more modest power requirements, greater sensitivity, and better specificity are just a few of the improvements we will see in sensor design. The fabrication of smaller and faster transistors has long been a driving force for the computer industry. As transistor sizes decrease to nano meter regime, we are approaching the point where nano-lithography will achieve the required resolution for creating these nano meter-sized devices. An obvious route when thinking about the very small is to shrink the size and cost of computers, and speed their operation phenomenally. Today's technology relies on etching patterns on silicon so that tiny electronic switches can be turned on and off, the basis for the binary code that represents everything the computer understands. Tomorrow's nano-computers will have molecular switches, or logic rods, to place today's nano-material-based microbes injected into an organism to combat disease-causing bacteria and viruses, remove cancerous cells or dispense medicines. Microscopic robots may repair, or even assemble complex devices or remove harmful substances from the environment. There is no doubt that nano-science and nanotechnology is one of the fastest growing research and technology areas. Nanotechnology has gained a great deal of public interest due to the needs and applications of nano-materials in many areas of human endeavors including industry, agriculture, business, medicine and public health. Between 1997 and 2005, investment in nanotechnology research and development by governments around the world soared from $432 million to about $4.1 billion, and corresponding industry investment exceeded that of the governments’ by 2005. By 2015, products incorporating nanotechnology will contribute approximately $1 trillion to the global economy, While nearly anything can be toxic at a high enough dose, the more relevant question is: how toxic are nano-materials at the potential concentrations at which they might be used? Any toxic effects of nano-materials will be specific to the type of base material, size, shape and coatings. However, to determine and understand the toxic effects of nano-materials, strategies and interpretation of the data must be done correctly and assumptions taken into consideration. In toxicity studies of nano-particles, different research groups used different cell lines, culturing conditions, and incubation times. With our understanding about the nature of nano-particles during toxicity test, it is difficult to compare results from different research groups and determine whether the cytotoxicity observed is physiologically relevant. Many biological models, including cells in culture, aquatic organisms including embryonic zebrafish (Danio rerio), and whole-animal tests such as rodents, currently are used to determine potential toxicological effects of chemicals. In urban atmospheres, diesel- and gasoline-fueled vehicles and stationary combustion sources have for many years contributed particulate materials throughout a wide size range including nano-materials. The toxic effects of such particles are still being investigated with regulatory concerns moving from the traditional particles less than 10 µm in aerodynamic diameter and below. Experimental results indicate that increased toxicity of finer-sized particles. However, to determine and understand the toxic effects of nano-materials, strategies and interpretation of the data must be done correctly and assumptions taken into consideration. The range of nanotechnology products is very extensive and they can be broken down into a number of different compound classes, including metals, metal oxides, carbon, and semiconductor nano-materials. and all are harmful to you and the environment as, standardz, hahahahaha, :) #edio

Karretero, Sebastian Ledher - Panae (Original Mix)





you know, soon it will be time for the, "Panae", (Leaves), to regenerate and the air and become cleaner, and if we can get them to stop spraying us, from above, and making artificial cloud banks, the extra UV rays from the sun, can remove the harmful biological spores from the atmosphere, like it's meant to do as,  standardz, hahahahaha, :) #edio

Maxikool - Quebec (Original Mix)



you know, it's time to climb, and it seems I've seen more mountains than, "Quebec", (a heavily forested province in eastern Canada; population 7,546,131 (2006). Settled by the French in 1608, it was ceded to the British in 1763 and became one of the original four provinces in the Dominion of Canada in 1867. The majority of its residents are French-speaking, and it is a focal point of the French-Canadian nationalist movement, which advocates independence for Quebec. French name Québec). has got recently as, standardz, hahahahahaha, :) #edio

Chris Liebing - Untitled - Es Ist Freitag aaabend...7th Anniversary Night



ammmmm back mo fo's, for another, epic journey, in the unknown realms of rhythm and bass!!, and i don't know about you but, " Es Ist Freitag aaabend", (It is Friday evening), and i'm ready to begin, and we can get back deep, into the groove, So sit back, plug in, turn up, do whatever it is, you have to do!!, to enjoy the music!, that much more!, Control this is, flight 420 requesting, go no/go!, on primary?, this is control, permission to get l.a.f, and go for, full blaze!!, you better, strap yourself in, quick time!, because we, have a launch in progress, in t - minus 10 seconds and counting down, hope your ready!,........ 5.......4.......3.......2.......1.......0 power to all drive's, crank up the phonic reactor, engage harmonic reinforcement, increase the warp, bubble, charge barium crystal capacitor's, activate inertial dampening field, navigation on-line, and retract the umbilical, mirror, signal, manoeuvre, and we, are away!, standardz, hahahahahaha, :) #edio
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