jueves, 27 de octubre de 2011

JOB DREAM

JOB DREAM

Word Count:
451

Summary:
The problem is, lots of of those people carried the disappointment they felt from learning that they couldn't do the jobs that they wanted as babies into their adult lives.


Keywords:
job, &, dream, jobs, people, think, thought, fact, feelings, dreams, adult, needs, dream jobs, dream job, childhood dreams, probably, child, life, nee


Article Body:
Have you changed? Your job started out being what you wanted, but today it is different. Maybe you thought of it as a jumping place to a better job in the future, but you have been here 5 plus years.

it is a fact that your dream job is waiting on you, so don't continue in a miserable job, boring or basically unsatisfying, even questionable for basic survival. Your time is NOW to get out!

Satisfaction & fulfillment is your aim, not being in a "make do" position for an extended period!

When people think of dream jobs, all  often, they think of the jobs that they thought about when they were children.


As a child, you probably thought about being a doctor or a lawyer, a nurse, even an astronaut when you finished college. Truth is  few of us kept the objective in mind for those jobs & gave up; in other words, you felt you were settling.

The problem is, lots of of those people carried the disappointment they felt from learning that they couldn't do the jobs that they wanted as babies into their adult lives.

 few people follow through with their childhood dreams, but the fact is, those childhood dreams probably would not have made you happy anyway.
Your needs & beliefs about a nice job when you were a child will be far different from your needs as an adult, & you'll find that if you consider your needs as an adult, you'll have a much better chance of finding your real dream job.


Think about what makes you happy, & what you need in terms of job security, monetary pay & challenges.

The first step in searching for your dream job is actually realizing that the one you are in right now isn't going to make you happy.
Have you been waiting on a promotion or raise that never comes, or do you feel that your efforts are wasted on a routine basis?

Perhaps you feel that they don't appreciate you, or you silently think that you are so much better than this. All of these feelings are valid; the important thing to realize is that they are feelings that should be acted upon.


When you take a look at the feelings of discontent that you have amassed about your job, realize that you spend a quarter of your life at work. Your life is basically  short to feel like that for a fourth of it!
More people find their dream jobs than you might think; For a fact, it is imperative to make your time count as you search.

Help is obtainable for you to discover the career job of your dreams. Your mindset is key when you begin to look


 

miércoles, 26 de octubre de 2011

Hypnosis 6 Secret Tips to Stay Young Forever

Hypnosis 6 Secret Tips to Stay Young Forever

Word Count:
569

Summary:
Our age increases with every day of our life. The fast pace of the world around us in fact makes us age faster. But, it is important to retain our youthful vigor, for it is only with young passion and energy that we can work towards success, enjoy a peaceful, healthy life.

The six hypnosis secrets that I'm providing in this article will provide you with insight on how to stay younger forever. Read now…


Keywords:
hypnosis, hypnotic, hypnotism, hypnosis techniques, hypnosis training, self-hypnosis, learn hypnosis, hypnotic mistress, hypnotic submission


Article Body:
We all live in an age that belongs to the young at heart. Life that is becoming extremely fast, day to day, also asks us to remain physically young. Young at heart, young in mind and young in your body has become the principle of survival.

Yet our age increases with every day of our life. The fast pace of the world around us in fact makes us age faster. But, it is important to retain our youthful vigor, for it is only with young passion and energy that we can work towards success, enjoy a peaceful, healthy life, indulge ourselves in the pleasure of sex, and keep ourselves happy.

How to remain young forever? How to defy your age? How to retain the youthful joy? How to remain passionate and energetic.

Here I outline six steps to keep you young forever - steps, if you follow regularly will ensure you remain young at heart, young in mind, and young in your body.


Step One: Imagine yourself leading a life that is youthful and vigorous. Picture yourself in various situations that the young indulge in. It can be a wild night in the disco, a wild game of football, romancing with the person you love - it can be anything. Just concentrate yourself in youthful action.

Step Two: The picture you create for yourself should produce the specific effects that you have in your mind. That is, if you think you are becoming old and falling behind times, then enjoy a dance in the disco that keeps you up with time with youthfulness. If you are old and wrinkled and want to look young, picture yourself with smooth, supple, wrinkle-free skin.

Step Three: Picture yourself as extremely alert, athletic and youthful. Imagine yourself in movements that you performed as freely as when you were a teenager.

This is a very important visual. Practice it at least twice a week for an indefinite period. Your aim is to preserve your body by using the power of creative visualization. Thus, this is a lifetime program aimed to evoke your youthful vigor always, anytime, anywhere.

Step Four: If you are suffering from any old-age disease, incorporate the visuals from How to lead a healthy life, with the steps outlined here. You will see a marked improvement in your health.

Step Five: Bring together all your senses - Sight, Sound, Smell, Taste and Touch. Direct your mind to improve each of them. Imagine yourself pictures of yourself where you hear more, taste better, see well, smell proper and become sensual to touch.
Practice them at least once every two days. You will see your awareness is functioning better than all who are of your age.

Step Six: Visualize yourself in a sea of endless energy. The water is warm and comfortable. The sky is bright and sunny. Swim through the refreshing water. Enjoy the swim. Stretch your legs; push through the water, as the energy envelops you.
Come out of the water and dry yourself with a large, soft towel. You are refreshingly young now. You are filled to the brim with energy. You also feel that the energy in you has changed your body and bones. All aches and pain of old age has disappeared.

You are a new man now. You are young, energetic with a passionate vigor in you. You are young in mind, body and spirit. Enjoy your youth.

Happy young days!

 

miércoles, 19 de octubre de 2011

Artistry


 

Artistry

Word Count:
642

Summary:
The article 'Artistry' is about taking care of your skin and look. After reading this article you will be able to take care of your body, irrespective of your age and body type.


Keywords:
Artistry, Artistry for skin care, how to remove wrinkles, skin and body treatment, nighttime body and skin treatment, solve your aging problems


Article Body:
Skin care is perhaps the most important ingredient in getting you that glowing and youthful look. Some of the factors that affect the skin include pollution levels, the amount of water that you drink and the exercise that you get, the stress levels that you are subjected to, the amount of time that you spend outdoors, the type of care that you take and of course, your age itself. While we cannot do anything about the last one, there's a lot that we can do about almost every other factor.

That's precisely what the world seems to be doing. Skin care and cosmetic procedures are big business, particularly in the US. Much of the treatment uses invasive technologies that involve harsh chemicals, needles or knives. Apart from being painful, they are also expensive. Well, you have to pay a price for regaining beauty, don't you?

Not really. Artistry's products offer effective treatment with clinically proven results through non-invasive methods at a much lower cost than other popular methods. Artistry believes in science and innovation to bring out products and treatments that are both effective and easy.

Lines and wrinkles are the signs that usher in aging. Anybody would want to arrest this process and eliminate the telltale lines and wrinkles, and even reverse the process. If you are the well-disciplined type, you probably have fewer problems with your skin, and proper skin care can do wonders for you. If you are the type of person that has all the wrong habits, skin care becomes something of a necessity for you.

Apart from skin care, you may also have to get skin treatment to take care of the damage that's already been done. Artistry's Time Defiance Derma Erase is a product that uses a non-invasive approach – no injections – to get you that youthful appearance. Claimed to be clinically proven to reduce expression lines, Derma Erase is aimed at relaxing and softening the skin.

Artistry is the renowned cosmetic and skin care products manufacturer. The company's products are among the largest selling brands in the world and have been described as a prestige brand. Artistry has invested more than a million dollars in state-of the-art facilities that are used to manufacture its products. The products undergo rigorous third party clinical testing that quantifies the results that can be expected. This approach assures the end user of definite and positive results. The products are safe and easy to use.

If you take care of your skin properly and use a product like Derma Erase, you are sure to regain and maintain that youthful look. Skin care starts with keeping the skin clean and providing it with the necessary nourishment. Clean your skin to wash away dirt and oil. Condition it to thoroughly clean the skin by removing dirt completely. Apply nourishment.

If you are above thirty and have some of the disadvantages listed above, you may need that extra care. Age-defying skin care is for you. There is a range of products out there to suit your every need.

For treatment of aging and wrinkles Artistry has products like the renewal lotion, Intense Repair Serum, Vitamin C+ Wild Yarn, Nighttime Renewal Lotion, Replenishing Eye Crème, Nighttime Renewal Lotion, Bright Idea Illuminating Essence, and Skin Refinishing Lotion.

TIME DEFIANCE renewal lotion stops the ageing process where it starts. It's a nighttime lotion that reduces your wrinkles by over 50% in twelve weeks. Then there's the daytime protection crème to keep you protected from all that pollution during the daytime. TIME DEFIANCE Intensive Repair Serum reverses the signs of aging in fourteen days.

All in all, you have complete skin care at your doorstep at a low cost and devoid of the complicated and painful procedures. So why not go ahead and make your skin glow once again.


 

sábado, 8 de octubre de 2011

Rishon Model of Elementary Particles

Rishon Model of Elementary Particles

Word Count:
796

Summary:
Explains how rishons could make up quarks and leptons and provides a possible basis for a unified field theory.


Keywords:
science physics quark rishon elementary particles unified field theory of everything


Article Body:
It has been proposed that the quarks and leptons consist of more fundamental particles called rishons. The T rishon may be defined as having mass and charge e/3. The V rishon is neutral and has little or no mass. The rishons have spin 1/2, carry color charge, and combine in triplets or rishon-antirishon pairs. Thus the electron is a TTT, the neutrino VVV, the down quark TVV, and the up quark TTV. If the T has somewhat greater color charge than the V, the down quark would have a net excess of the color carried by the T. The antiup quark TTV would appear to have a net deficiency of the color carried by the V, or equivalently, an excess of anticolor, and behave as an antiparticle. Hence the TTV would appear to have an excess of color and behave as a particle, in agreement with observation. The leptons have no net color. There is no need for hypercolor.

All particle interactions consist of rearrangements of rishons, or creation or annihilation of rishon-antirishon pairs. For example, beta-decay occurs when a down quark changes to an up quark, emitting an electron and neutrino:

TVV --> TTV + TTT + VVV

The massless particle was originally called a neutrino; it was later defined to be an antineutrino. This model favors the first choice.

If the binding between rishons is much greater than the binding between quarks or leptons, then quarks and leptons could associate without losing their identity, just as atoms can form molecules. Lepton number is also conserved if the VVV is assigned a negative lepton number.

The second and third generations of the electron and the quarks might be formed by adding one or two TT pairs to the first generation. The second and third generations of the neutrino might be formed by adding one or two VV pairs to the first generation. The force binding the rishons is evidently so great that the separate rishon wave functions "fall" together into just one wave function, in which case there would be no internal structure.

The effective mass of the TTV is nearly equal to that of the TVV, which implies that the T-T bond has binding energy nearly equal to the bare mass of a T. The electron has three T's and three bonds and hence should have little mass compared to a quark, as observed. The muon obtains most of its mass from the added TT and should have a mass comparable to that of a quark, as observed.

The boson carriers of the weak force presumably consist of the rishons required to form the decay products. The photon may consist of a colorless VV pair; for example red-antired. The gluon may consist of a colored VV pair, for example red-antiblue. Hence the weak force may simply be the color force carried by weak bosons; the electromagnetic force is the color force carried by photons, and the strong force is the color force carried by gluons, mesons, quarks, and possibly other hadrons.

A real TT would annihilate, while a virtual pair might help carry the strong force. A bare rishon, a TV, TV, TT, or VV would carry net color and, like the quarks, would not be seen in isolation.

The proton consists of two up quarks and a down quark, so the hydrogen atom has four T's, four T's, two V's, and two V's. If this typifies the whole universe, then there exist equal amounts of rishons and antirishons.

One might speculate further that the emission and absorption of virtual particles is just Hawking radiation. The spacetime itself around a rishon might have quantum states. The large spin of a rishon would eliminate the spherically symmetric S states, leaving three P states with the time coordinate expanded, and three P states with the time coordinate compressed. These might be identified with the three colors and three anticolors. The difference in the time coordinate would cause a slight difference in the reaction rates of rishons and antirishons, explaining why hydrogen is more abundant than antihydrogen. Another possibility is that the rishons and antirishons have opposite handedness and parity violation causes a difference in the reaction rates. The rishons themselves may be just quanta of spacetime. The V rishon might be the lowest P state, and the T rishon the next-highest P state. Thus the T and V would be similar, but somewhat mismatched, as observed.

If this sort of model is correct, it would be the basis of the long-sought unified field theory. The strong, weak, and electromagnetic forces are just the color force carried by intermediates, and the color force itself may be identified with quantum gravity of which ordinary gravity is the long-range limit.

Reference

Haim Harari, "The Structure of Quarks and Leptons," Scientific American, p.56, April 1983.

 

Reversing Mother Nature, Part Two

Reversing Mother Nature, Part Two

Word Count:
1056

Summary:
We talked to North America's leading In Situ Leach (ISL) uranium mining engineers, and had them explain exactly how ISL worked. Most of the significant ISL operations in the United States were designed and/or constructed by these engineers. They explained how ISL mining is really just reversing the process of Mother Nature.

ISL EXTRACTION AND PROCESSING

During ISL mining, water is pumped to the surface from production wells that contain uranium in very low concentration...


Keywords:
uranium, uranium mining, energy, nuclear energy, electricity, ion exchange, ISL mining, utilities


Article Body:
We talked to North America's leading In Situ Leach (ISL) uranium mining engineers, and had them explain exactly how ISL worked. Most of the significant ISL operations in the United States were designed and/or constructed by these engineers. They explained how ISL mining is really just reversing the process of Mother Nature.

ISL EXTRACTION AND PROCESSING

During ISL mining, water is pumped to the surface from production wells that contain uranium in very low concentrations, on the order of parts per million concentrations. The next step in the ISL process is to extract the uranium dicarbonate. Extraction is done by chemically exchanging ions inside a processing facility. "The ion exchange process is very analogous to a home Culligan® water softener," Anthony revealed. "It removes hardness or calcium from the water by replacing it with sodium, using ion exchange resins. If you go to Lowe's or Home Depot, and buy a water softener, you basically have a home version of a uranium extraction plant." The main difference is your water softener will have a cation exchanger. "For a uranium plant to function properly, you need to use an anion exchange resin, which is specifically designed to load uranium," Anthony clarified.

And what is this magical "ion exchange resin"? The resin is comprised of little polymer beads, which are charged particles having an affinity for uranium anions. "There are literally millions of these small resin beads in a vessel, which can adsorb low concentration of uranium in solution," said Anthony. Adsorption is when something is attracted to something else or clings to it, like static electricity.

Why do you have to process uranium like this? "In essence, the ion exchange process is a beneficiation (reduction) process that concentrates large volumes of low concentrate uranium solution into a much smaller volume containing a much higher concentration of uranium," said Anthony. In other words, the beneficiation is just concentrating the uranium from the large volume of water in which it is mined into a more compact form. The preferred means is through an ion exchange.

Anthony gave a real-life example of the beneficiation process, "Three million gallons of wellfield solution containing dilute concentrations of uranium, of 100 parts per million minus 0.10 grams/liter, is passed through a bed of ion exchange resin. This might take 24 hours to achieve if the solution is flowing at 2,500 gallons per minute. After this length of time, the resin becomes loaded with approximately 2,500 pounds of uranium."

STRIPPING THE URANIUM

Stripping the uranium is called the elution process. This is done through a chemical exchange of positively and negatively charged ions. Resins are classified by the charge on the active sites. "The active sites on the resin are positively charged for anion resins and negatively charged for cation resins," Norris enlightened us. "The resin's ability to extract chemical ions from a solution is derived from what's called an active site," he continued. "In our case, chloride ions obtained from ordinary tale salt are used to stabilize or temporarily neutralize this positively charged active site." The negatively charged chloride ion sticks to the positively charged site, held in place by what Norris called "electrostatic forces." When the negatively charged ions, such as uranyl dicarbonate, are placed in contact with the solution, it will kick off the chloride and replace that with the uranyl dicarbonate.

That was the chemistry lesson. Anthony summed it up in a nutshell, "They just displace it. There's a greater affinity for the chloride ion to the resin than there is for the uranium. So, the uranium is stripped from the resin bed." The processing facility chemically strips the loaded uranium from the resin by soaking the entire package of uranium-laden resin in a salt bath solution. "The volume of salt solution is on the order of 10,000 gallons resulting in a solution concentration of 30 grams/liter uranium," Anthony said, describing the process of how the uranium becomes concentrated. "The stripped uranium solution concentration is magnified 300 times more than the wellfield solution," he informed us. "The concentration level can now be economically processed for recovery: precipitation, dewatering, drying and drumming for a nuclear facility."

GETTING URANIUM INTO THE DRUM

After the uranium has been removed from the solution, it is precipitated. At this point in the processing stage, you have yellowcake slurry. Up close, it looks like a sort of yellowish and wet, runny cement mixture. The dewatering process does just that, it removes the water from the yellowcake mixture.

"I use a filter press, a device that is designed to separate solids from solutions," explained Anthony. Filter presses are extensively used in various types of food, chemical and drug processing across the world. "The uranium solids, now looking more like yellowcake, are retained in the filter press, where they can be washed and later air dried, before drying them to a powder with a low temperature vacuum dryer," said Anthony taking us step by step through this process.

So what is the filter press and how do you end up with the finished yellowcake when you're done? "It's a series of plates and hollow frames, or it could be a series of recessed chambers," Anthony answered. "Filter cloth is draped over the plates or chalked in the recessed chambers. The yellowcake slurry is pumped through the filter allowing the liquid phase to pass through the filter cloth, trapping the uranium oxide inside the device." Anthony likes to pack the filter press up with as much yellowcake as it can hold. "It is then washed with clean water to displace the chloride ions to a low level," Anthony explained. If you don't remove the chloride concentrations to the acceptable level required by an uranium enrichment facility, a fine is assessed against that shipment.

The final steps include conveying the yellowcake to the vacuum dryer. The uranium oxide's color depends on how high or low a temperature is used to dry the "yellowcake." Patrick Drummond, the Smith-Highland Ranch plant superintendent, showed us pure uranium oxide dried at high temperatures. It was nearly black. After the drying process is complete, the uranium is packaged up in DOE-approved 55 gallon drums and transported to an enrichment facility. It is then when the enriched uranium can finally be used to power a nuclear reactor and provide an inexpensive source of electricity.


 

viernes, 7 de octubre de 2011

Reversing Mother Nature, Part One

Reversing Mother Nature, Part One

Word Count:
1879

Summary:
We talked to North America's leading In Situ Leach (ISL) uranium mining engineers, and had them explain exactly how ISL worked. Most of the significant ISL operations in the United States were designed and/or constructed by these engineers. They explained how ISL mining is really just reversing the process of Mother Nature.

"Blossom" is what underground uranium miners called the crystals forming on the tunnel walls. Because the ore was in contact with air inside an undergr...


Keywords:
uranium, uranium mining, energy, nuclear energy, electricity, ion exchange, ISL mining, utilities


Article Body:
We talked to North America's leading In Situ Leach (ISL) uranium mining engineers, and had them explain exactly how ISL worked. Most of the significant ISL operations in the United States were designed and/or constructed by these engineers. They explained how ISL mining is really just reversing the process of Mother Nature.

"Blossom" is what underground uranium miners called the crystals forming on the tunnel walls. Because the ore was in contact with air inside an underground mine, and as ground water moved slowly against the mine's walls, a visible crust of uranium crystals would precipitate, or blossom along those walls. Making the uranium soluble doesn't require a lot of oxygen and water because oxidization is a natural process. Adding more oxygen to the groundwater found in, and around, a uranium-mineralized orebody is the principle upon which present-day In Situ Leach (ISL) uranium mining is based.

Eons ago, the uranium was soluble and moved, on or below the surface, with the ground water. "In roll front uranium deposits the uranium was transported into the area through the natural groundwater system and precipitated from solution due to some reducing environment," explained Harry Anthony, Chief Operating Officer of Uranium Energy Corp. Often, the reducing agent was something organic, such as coal, deep-seated oil and gas deposits, or hydrogen sulfide gases. In its reduced form, the uranium crystals are insoluble. "It will precipitate as a coating on the existing sand grains of the sandstone," added Anthony. "As more water containing uranium sweeps through this area, and encounters this reducing environment, more uranium is precipitated until there is a sufficient concentration to make it a commercial deposit."

After the geological team has delineated a company's uranium "roll front" deposit and determined it is of economic value, the company must turn to its ISL design engineers to complete the "mining" process. While it takes stellar geologists such as David Miller of Strathmore Minerals, Bill Sheriff of Energy Metals, or William Boberg of UR-Energy to accumulate large, proven uranium-mineralized holdings, as they have done in Wyoming, New Mexico, Texas or elsewhere, each must turn to their engineers to extract the uranium from those sand grains and process them to produce an economic quantity of uranium oxide, or U3O8. The overwhelming majority of ISL facilities, designed in the United States, were engineered by Harry Anthony, Doug Norris and Dennis Stover.

Trained as a mechanical engineer, Harry Anthony has been involved with more than ten ISL uranium operations from Union Carbide's Palangana in 1976 to Uranium Resources' Bruni, Benavides, North Platte, Kingsville Dome and Rosita ISL projects. Anthony's consulting work has taken him to ISL projects in Kazakhstan, Uzbekistan and the Czech Republic. Dennis Stover is best remembered for designing Smith Ranch in Wyoming, now owned by Cameco Corp. With a PhD in chemical engineering from the University of Michigan, Dr. Stover helped develop the first commercial alkaline ISL project in south Texas for Atlantic Richfield and helped develop an additional five small ISL operations in south Texas. Also a chemical engineer by training, Doug Norris's paths have crossed with both Stover and Anthony. He helped build the Highland and Smith Ranch ISL operations in Wyoming, and designed Mestena's Alta Mesa ISL operation in south Texas.

HOW DOES ISL MINING REVERSE MOTHER NATURE?

"In its natural, reduced environment, uranium exists as a solid in the +4 valence," Anthony explained. "In the mining stage, we are reversing Mother Nature's process by adding oxygen, oxidizing the uranium from a valence of +4 to a valence of +6." The uranium was oxidized at one time, but then reduced by Mother Nature. By drilling wells into the ore zone, circulating the water and adding oxygen to it, the uranium is made soluble again.

Is it really this simple? Yes and no. Energy Metals Chief Operating Officer Dennis Stover outlined the process, "You're simply adding, into the injection well, gaseous oxygen, just pure oxygen, but you're doing it under the water level in the well. The natural pressure, created by that column of water above the injection point, allows the oxygen to dissolve into the water so that there's no free gas being put into the well."

Stover compared the oxygen dissolved in the liquid to the carbon dioxide dissolved in a bottle of soda. The soda remains clear, dissolved in the liquid, when stationery. "But when you shake it up, the gas will break out," added Stover. "The pressure that's available that lets you dissolve the oxygen is determined by the amount of naturally occurring water pressure that's on the uranium deposit." Stover explained that if the deposit is 100 feet below the water table, you can dissolve a certain amount of oxygen. "If the uranium deposit is 200 feet below the water table, or twice as deep, you can dissolve twice as much oxygen."

Historically, ISL mining evolved from acid leaching to leaching with sodium bicarbonate or sodium carbonate. "Most people add only carbon dioxide in dissolved oxygen at this point," Stover explained. "There's a chemical relationship between carbon dioxide gas, bicarbonate, and the carbonate ion. The host rock typically contains calcium carbonate or sodium carbonate minerals." By adding the carbon dioxide, Stover said, "It will lower the PH of the solution just slightly." That enhances the solubility of the naturally occurring calcium carbonate." According to Stover and the other experts, the addition of carbon dioxide is an effective replacement for the previously added bicarbonate ion.

The goal is to get the uranium out of the sandstone and soluble. "We're accelerating Mother Nature and making the uranium soluble again," said Doug Norris, engineering manager for Uranium Energy. "When it's soluble, we can just pump it out of the ground. But it is dissolved in the water like salt in sea water. You can't see it, but it's there."

"MINING" THE URANIUM

ISL "mining" and processing the uranium is a very simple process. It's a water treatment plant with hundreds of water wells. There are two types of wells: injection and production. The water plus reagent (oxygen, carbon dioxide) is injected into the ground via water wells. Outside the United States, where environmental regulations may be less restrictive, an ISL's aquifer may be bombarded with harsh acid leaching. On Harry Anthony's engineering services website, he describes the process he observed in the Czech Republic, "Over 4,100,000 tons of H2SO4 (sulfuric acid), 270,000 tons of HNO3 (nitric acid), 100,000 tons of NH3 (ammonia), and 25,000 tons of HF (hydrofloric acid) were consumed by the mine."

It would be nearly impossible to get an ISL project permitted in the United States using these chemicals to leach the uranium. The water quality division, within a state's Department of Environmental Quality (DQE), demands restoration to background, which is about where the groundwater was before ISL mining began. "The less things you add, the less you have to reclaim at the end of the process," Doug Norris pointed out. "The more stuff you add trying to get it out of the ground, the more you have to clean up."

Dennis Stover explained how the fluids presently used came about, "Historically, most ISL operations had a great deal of difficulty with plugging or fouling of their injection wells due to the precipitation of excessive amounts of salts." He pointed out that the chemistry miners were using in conventional milling operations didn't work in ISL mining. "Because they had very high concentrated salt solutions, they were trying to accelerate everything," Stover told us. "When you take those concentrated solutions and put them underground, Mother Nature is not always happy. Other salts that were present in the rock would dissolve, solutions would become supersaturated and they would precipitate out. The wells would plug up."

Some of the early U.S. operations tried to enhance their production, for example, by using ammonia to enhance the pH of their water. "They forgot that ammonia is easily locked up by clay and almost impossible to get back to background," explained Norris. "It's pretty reactive and doesn't occur that much in nature." Norris would give anyone using ammonia during the mining procedure, "a 95 percent chance of having a very bad time." Why, we asked? Norris responded, "It's bad from the fact that nobody has been able to successfully clean up a site that has used ammonia."

Norris explained that sometimes you have to add a carbonate source, such as carbon dioxide "to stabilize the dissolved uranium as uranyl dicarbonate." Norris said, "The uranium is in a solid state in the ore, as Mother Nature left it. We oxidize it and turn it into uranyl dicarbonate." What goes to the processing plant is called lixiviate, the dissolved uranium in its ionic form. According to Anthony, "Today, most ISL mining operates at neutral pH, and the uranium is complexed as a dicarbonate."

Water is circulated through the injection wells with the expressed purpose of separating the uranium coating the sandstone. Each time you circulate the water through the orebody, you are capturing some of the uranium. Each pass through is called a pore volume. "It's like filling up a bucket of sand with water," explained Anthony. "Once you have the bucket full of sand, you can still pour in water. The amount of water you can pour in until you just bring it up to the top of the sand is termed a 'pore volume.' Pore volume is the interspatial volume."

In Anthony's models for operating an economic ISL plant, he calculates 20 pore volumes (PV). Porosity, or the spaces in between the sand particles, where the water can travel (permeability), helps determine how much uranium can be recovered. "It takes about 20 PV to 30PV to recover the highest percentage," said David Miller, who was Cogema's chief ISL geologist in the United States, before becoming President of Strathmore Minerals. "But, as the price of uranium keeps going higher, it may be economic to recover a higher percentage of the orebody. Maybe 40PV to 50PV will be possible with the direction the prices are moving. Of course, your average processed grade will go down. A few years ago, you would want to shut wells off at 15 parts per million (ppm), but now you might want to run them at 10ppm. At $50/pound uranium, you may be able to run at 7 or 8ppm."

Typically, an ISL operation should recover about 70 percent of the uranium in the ore, under the 20PV to 30PV scenario. However, in the case of the Czech Republic's Diamo project, once Europe's largest uranium mining operation, only 55 percent was recovered. Clearly, the more uranium recovered with the least number of pore volumes, the lower the operating costs. Trying to recover more uranium is only possible if you have the plant capacity. Because of the rising price of uranium, we would expect more companies to attempt to recover a higher percentage of uranium. Miller warns, however, "You will not make your production quota if your plant is 'sized' at a certain gallons per minutes at a certain grade to meet your annual production. If you lower the average grade and fail to increase your flow rate, your annual production will decrease."


 

jueves, 6 de octubre de 2011

Renewable Energy: Biodiesel

Renewable Energy:  Biodiesel

Word Count:
709

Summary:
Petroleum based fuels are limited and non-renewable. Research is revealing new renewable energy sources such as ethanol and biodiesel, both made from plant and animal sources.


Keywords:
biodiesel, ethanol,e85,fuel economy,environment,save money,hybrid,hybrid vehicles


Article Body:

You may have heard of biodiesel (or even biowillie), but for those who don't know much about it, we will get to an explanation of it in a moment.  I just wanted to start with a small list of the benefits of using biodiesel.

BENEFITS OF BIODIESEL

Requires no special delivery equipment and can use existing infrastructure.

Can be used in present diesel engines without modification

Reduces carbon dioxide emissions from 15% to over 75% over petroleum diesel, based on the biodiesel blend.

Emits fewer air pollutants in general.

It is a completely renewable fuel.

Reduces dependence on foreign oil.

It is safer to handle, store and transport than petrolem diesel.

WHAT IS BIODIESEL?

Biodiesel is a renewable diesel fuel which can be made from waste products such as vegetable oils and animal fats, or even from vegetable matter, such as corn, which is specifically intended to produce it.  While not often used as "neat" or pure biodiesel, also known as B100, blends of up to 20% are common and can be used in most diesel powered equipment with no modification at all.  There are some engines, built since 1994, which can use B100.  It should be mentioned, however, that experts recommend that users check with their engine manufacturers to see if there might be a conflict or problem.  There is still some uncertainty about how the use of biodiesel fuel, particularly B100, may affect the life of the engine.

As pointed out in the section on benefits (above), biodiesel fuel reduces air pollution and carbon dioxide emissions.

MAKING BIODIESEL

Three great things about biodiesel fuel is that it is renewable, biodegradeable, and non-toxic. Biodiesel is the name given to acid methyl esters intended for use as fuel. Another product formed during the production of biodiesel is glycerol, which is widely used in cosmetics.  Slightly over half of the production resources can use any fat or oil, including recycled cooking grease.  The remaining producers primarily uses vegetable oils.  Due mainly to cost considerations, soy oil is the prime source for most commercial production.  It is estimated that approximately 5% of on-road biodiesel could be produced from all sources under optimum conditions.

THE MARKET AND THE INCENTIVES

Biodiesel is in wide use among such entities as the U.S. Postal Service and the U.S. Departments of Defense, Energy, and Agriculture. Many school districts, municipal transit authorities, national parks, public utility companies, and garbage and recycling companies also use the fuel. It is also becoming more popular among trucking companies, truck owners, and farmers thanks in part to the efforts of country singer Willie Nelson, who now has his own brand known as BioWillie.

At the time this article is being written, there is a tax incentive offered as a federal tax credit.  This incentive is mainly being taken by producers who are passing it on to consumers in the form of a price reduction at the pump.  The USDA estimates this incentive will bring production of biodiesel to at least 124 million gallons per year.  Other factors, such as costs of petroleum sources could cause an even higher production.

AVAILABILITY

Fleet owners have found that it is not particularly difficult to set up their own biodiesel fueling facilities.  While there are some practical considerations which might need to be overcome, fleet owners are finding that it offers some rewards economically as well as in terms of safety and responsibility as this fuel is, and is seen by the community as, being ecologically sensible.

Some of the business and government entities happy with their biodiesel refit are:  L. L. Bean, the U. S. Military, and Cranmore Mountain Resort in New Hampshire.  Of particular interest was that Yellowstone National Park confirmed in their study of the feasibility of using biodiesel fueled trucks that park bears did not seem to be particularly attracted to vehicles fueled by this food-based diesel product.

While commercial availability is growing and more stations and truck stops are adding biodiesel, it can still be difficult to locate, particularly for the traveler. The federal government offers a Biodiesel Locator service at its Alternative Fuel Data Center


 

Relieve Sinus Headaches Using the Neti Pot

Relieve Sinus Headaches Using the Neti Pot

Word Count:
455

Summary:
The neti pot has been popularized lately and with good reason. The positive health benefits from regular usage can have many positive affects.


Keywords:
relieve headaches,relieve sinus headaches


Article Body:
The word neti is and abbreviation of the sankskrit word Jala neti which means "water cleansing". Though the technique has been unknown in the West until recently, Indian Yogi's have been performing the procedure for thousands of years as a pert of their daily cleansing ritual.

The concept is really simple. You simply fill the neti Pot with warm salt water and poor it in one nostril until it comes out of the other one. This basically clears out all of that nasty stuff up there and prevents bacteria from having a pool party in your sinuses. Though the concept is simple, the actual technique and preparation does require a little practice. You should always use salt water for the best results. I personally opt to buy the refills, but you can make your own mixture if you run out of the refill packets. Non-iodized salt is best and the mixture should be at a ratio of approximately 1 1/2 teaspoons per liter of warm water. One advantage with the pre-mixed packets, is that they are able to have a higher saline content since special buffering agents prevent discomfort to the nasal cavity. The water should be as close to body temperature as you can get it without being too hot. If the temperature is too cold, you will fell like you are drowning in the ocean.

After stirring the mixture thoroughly, lean over a sink and tilt your head down and slightly to one side. You then place the spot of the neti pot in the nostril, establishing as tight of a seal as possible, and raise the pot slightly allowing the water to flow slowly into the nasal passage. Continue to breathe normally through your mouth. If you are positioned correctly, you should feel the water going from one side to the other until you have a steady stream flowing out of the nostril.

It took me about three attempts before I felt that I was doing it correctly, so don't get too discouraged if it doesn't go well the first few times. Also, if you have a lot of blockage then you may have to switch from side to side several times blowing your nose in between flushes. I recommend using just half a packet starting out, and one full pot for both nostrils. After a few weeks, you can do a full pot for each nostril for the maximum effect.

So far, I have been using the neti pot nightly for about 6 weeks and I have not had any of the usual sinus problems that have plagued me constantly for the last two years. It has also alleviated my snoring, since I am no longer struggling to breathe at night.


 

martes, 4 de octubre de 2011

Relativity of Simultaneity Versus Other "Relativistic" Effects

Relativity of Simultaneity Versus Other "Relativistic" Effects

Word Count:
3135

Summary:
The self-contradiction in special relativity is revealed. All versions of a theoretical deducing STR are made in the contradiction with own inquest – effect of a relativity of simultaneity. Instead of Lorentz's transformations more simple variant is offered. It eliminates paradoxes that irritate sensible people.


Keywords:
special relativity, relativity of simultaneity, Lorentz's transformations, Einstein's train, Michelson's experience, Relativistic thought experiment, paradox of "twins", scientifical materialism", Einstein's postulates, relativistic effects


Article Body:
Relativity of Simultaneity Versus Other Relativistic Effects

(A Scandal in the "relativistic" family)

Ravil Kalmykov

         
The requirement of Einstein's second postulate regarding constancy of the speed of light in all inertial reference frames is a singular deviation from the canons of classical mechanics. It creates a basic distortion in the habitual representation of space and time. Persons beginning their study of special relativity, should be ready to experience a surprising metamorphosis.

However one of problems of science consists in the exceptional number of these novel theoretical representations.  It is no secret that physicists-theorists are at times ready to bring down a huge cloud of new and absolutely mad hypotheses on heads of unsuspecting people. The problem facing the general scientific community in maintaining a healthy world outlook consists, whenever possible, in limiting the revolutionary aspirations of some of the excessively zealous authors with their novel and singular concepts, to a pragmatic and necessary minimum.

In opinion of the author of this article, not all is right with special relativity. They have obviously overdone the scale of novelty and have run counter to the requirements of the principle of necessity.  One should try to find a more simple theoretical explanation, which is less bulky and less burdensome for the human mind.

Historically, the first idea that came to the minds of physicists was that in a condition of relative movement of inertial systems with near-light speeds, a transformation of space is inevitable. So the formulas of Lorentz's transformations were born. However people have the right to question why it was decided to begin with spatial distortions and not with time?  Apparently, the human mind is arranged to begin with something small, close and clear. Probably, changes in space are perceived to be easier than changes in time.

However, it turned out that transformations in space were not sufficient, and it was necessary to subject time to distortions as well. But what else distorts? According to the Lorentz transformations, a double change in time takes place: time intervals are reduced, and there is the phenomenon of  "the relativity of simultaneity". Thus, the initial "cautious" idea of transformation of space to which physicists have so amicably clung has generated a whole bouquet of shocking effects. We have a right to ask: what would be the result if we started with the other end?  The author tries to prove below, that another theory leads to a result that is simple, has a minimum of novelty, and is more sparing of human credulity.

In stating the contents of special relativity one usually finds the relativity of simultaneity right at the beginning. But it has for some unknown reason only a qualitative character. The existence of this strange effect is only mentioned. The quantitative formula is deduced much later, after calculations of the reductions of space lengths and timepieces according to Lorentz's transformations. As a result, it is given a "third-rate" dependency. After all of that, it is forgotten.

The author sees a basic mistake in this fact. He considers that value of this phenomenon is wrongly underestimated. Actually, it is the main thing (and as it will be shown below – the only thing).  Therefore it should be investigated first, and deeply. As to the concrete formula describing the phenomenon, it will be found in the thought experiment of Einstein's train.

Direct derivation of the scale of infringement of simultaneity
 
This well-known experiment has a train, which we will consider as having a relativistic speed. There are two observers. One is in the middle of the train, the other – at the station. All is organized in such a manner that during that moment when the observers are opposite each other, they simultaneously receive two light signals, emitting earlier from the two ends of the train. Each draws a conclusion about the ratio of the moments of emission of these signals. 

With the observer who is in the middle of a train, all is simple: both signals have in his opinion, traveled identical distances (half the length of the train), and were received simultaneously. This means that he considers they were emitted simultaneously as well.

A more difficult situation exists with the observer at the station. First, he understands that during the moments of release of the signals, the middle of a train was some distance away from him. Thus, the head of the train was closer to him, than the tail. As a result, the light signal from the tail covered a greater distance and required a greater time interval. Hence, it should have been emitted earlier than from a head.

It is accepted that a qualitative conclusion of this situation that two simultaneous events in one reference system (train) are not at all simultaneous in another (station). That due to the fact that there was a mistiming of clocks in the two systems. But for some reason, this is not quantified. This is obviously the place to deduce a concrete quantitative ratio of the scale of infringement of simultaneity or the change in time rather than later, in the Lorentz's transformations.  Here, in our opinion, is an obvious deviation, from proper experiment. For a meticulous observer at the station, it would be natural to "take the bull by the horns" at once, and to try to deduce the required quantitative ratio. 
 
A little about the nature of the relativity of simultaneity.  Actually, it is a question of relative displacement (shift) of events of some interval of a time scale in the transition from one system to another. The size of this displacement depends on the position in space (along an axis of mutual motion of the systems). This displacement (we shall name it a discrepancy of events in time) leads to an interesting quantitative phenomenon.

The observer at the station wishes to calculate the size of the discrepancy using elementary improvised means, without the use of the Lorentz transformation formulas, but being guided by Einstein's postulates. At the same time, our observer is so enamored with space that he does not wish to transform its characteristics without due cause. Station inspectors, as a rule, have plenty of time so time is no problem for them.
 
Let's represent a situation at the moment of emission of a signal from the tail of the train in fig.1:
       
     Fig. 1. Einstein's train
                                 

                              


     Here O - position of the middle of a train; O?- position of the observer at station;
   A - position of the head of the train; B – position of the tail;
   AB = l – length of the train; BO = OA =  ; V – speed of the train.

 The Signal from the tail should reach the observer at the station in the following time interval 

   =  =  =     From here   = 

  The time necessary for the arrival of the signal from the head of the train is calculated in a similar fashion.
 (The moment of emission of the signal will be different, but the situation will be similar, therefore it is possible to use the same fig.1)

          =  =  =         It is received   =   

The difference between the two intervals is calculated easily

                  ?t =   –   =   -   =   (1)

So, for the observer at the station that received the simultaneous arrival of the signals, the signal from the head should have been emitted before the signal from the tail of the size, ?t (1). From here, without resorting to a transformation of space, he reaches an elementary conclusion about mistiming of clocks (discrepancy of events) in two systems in any two points, A and B on the axis of their mutual motion.  From formula (1) it is obvious that the size is proportional to the speed of relative motion of systems   and the distance between the investigated points on the axis of motion, l.
Where is the mistake?

As we see, the observer's result does not coincide with what ensues from Lorentz's transformations.  It is easier, and is not concerned with the deformation of space and time scales. Who is right?
Let's remind ourselves that the transformation formulas were derived from an interpretation of Michelson's experiment which showed that rays moving in different directions in a frame of reference were received simultaneously regardless of motion of the source.

Let's recap this situation, remembering the relativity of simultaneity. In the system attached to the interferometer, the ray of light, having run over the course of the interferometer and having reflected back from a mirror, comes back to the initial point, the starting point.

In stationary system in which the interferometer is displaced, the event – the light beam does not return to the starting point, but to another, because during the time of travel ?t of this beam, the interferometer itself was displaced in space by l = V t.    An important result is found here. According to the relativity of simultaneity, in this other point the displacement (shift) of events takes place in the time scale.  That is, the event at this point occurs earlier on the clocks of one system than on the clocks in another.  In particular, when the process of movement in one system is already finished, it still continues in the other!

There is a very puzzling methodological problem: given these conditions, to broadcast events from one system to another. How can we carry out direct comparisons of space and time?  There is a suspicion that physicists have given insufficient thought to this question. Really: except for one initial moment all events in two moving systems do not synchronize, and the size of the discrepancy is not constant, continuously progressing with the increase in relative displacement of the systems in space.

The serious analysis of this problem leads to a sad fact: it is impossible to reach a situation when the beginning and the end of any physical process is synchronized in both systems. One moment,  only the beginning or the end ofa  process can coincide. In Michelson's experiment, only the beginning coincides. In Einstein's train experiment, only the end coincides.

Let's recollect that the analysis of Michelson's experiment resulting in the Lorentz's transformations were calculated from a simple right angled triangle. On the hypotenuse of this triangle, the transverse light beam in the system of the stationary observer moved (see fig.2,) in a continuous line). However the presence of a displacement (shift) of events on the time scale considerably complicates this situation. The return of a light beam in the moving system arrives earlier (point A).  At this moment in the stationary system, the beam continues to run cheerfully on the hypotenuse (to point A'). At what moment should the stationary observer determine the length that has been traversed by a ray of light, and the time interval expended for it (at point O' or point A ')?

Our poor stationary observer will certainly as himself this question: if the beginning of motion in both systems is synchronous, and the end is not, how dos this look to the moving observer?  The stationary observer will want to try to diagram his version of the process in his own system, taking into account the displacement (see fig.2, a dotted line).   


                   

   Fig. 2. Motion of the transverse beam in Michelson's experiment

                                         
                                           
                     
He will certainly not be enthused by the comparison of the two diagrams. In his opinion, the braking process in the direction of motion in moving system are obviously observed.  And also acceleration takes place in the opposite direction, considering a change of sign V in the formula (1). In particular, in the mutual displacement of the two systems V ' there is a slowing down from the starting point. To the fixed observer, it is clear why it occurs:

  , And in view of the discrepancy t ' = t + ?t,      then    
                                   
                     - From here is given the illusion of the delay of motion.

And with movement in the opposite direction, V changes to minus and the size ?t becomes a negative value (see the formula (1)), that generates the illusion of acceleration.

An uncomfortable conclusion inevitably follows from this situation. If it is impossible to determine the beginning and end of any process, the spatial positioning and timing of all its intermediate stages and all local events occurring in the framework of the two systems moving with near-light speed becom highly problematic. In this connection, that charming simplicity which authors of special relativity attribute to the Lorentz transformations is difficult to understand. Obviously, these transformations should be reconsidered. It is necessary to subject special relativity to serious modification. What will the occur to its well-known effects and paradoxes?

Problem of direct comparisons in details

Let's try to consider a simple example from the very beginning, given theexistence of the  relativity of simultaneity. In a classical example with a moving rod, we shall try to compare the results of measurement of its length by two researchers. In the system of the first researcher moving with the rod, the process of measurement is very simple: it is possible use a ruler and to note on it position at the ends of the rod. In system of the fixed researcher observing the rod moving at near-light speed, the situation is little bit more difficult.  He must organize a special measuring experiment.

Experiment 1. The first researcher arranges flashes of light to occur simultaneously at two ends of therod. The second researcher must mark these flashes on a ruler, for example, by means of a photosensitive cover.  For simplicity in the thought experiment, we shall assume that the rod travels very close to the ruler, therefore the delay between the moment of flash and the act of measurement can be neglected.


     Fig.3. Experiment 1

               

The first researcher synchronizes time at the ends of the rod and creates simultaneous flashes.  But the second researcher is indignant: in his system, the flashes were not simultaneous.  That is, he registers a flash at one end of the rod, then after a pause, on the other. He quite reasonably considers result of experiment incorrect because during the pause the rod was essentially displaced in space. This ill-fated experiment shows a discrepancy of events at the ends of the spatially extended rod – the result of the relativistic effect called by us, the - relativity of simultaneity.

So, experiment 1 is defective. Researchers agree to make it otherwise.
 
Experiment 2. Now the second researcher organizes a simultaneous flash of light along the in his system. For this purpose, he projects a large number of parallel rays of light from one source perpendicular to the motion of the rod. He needs only to mark the edges of the shadow of the moving rod on his ruler. Again, we consider that the rod moves vary close to the ruler of the second observer.


                                     

 Fig.4. Experiment 2

                                                                


The act of measurement is accomplished. But now the first researcher is indignant. He  is disappointed  that the rod in his system was not illuminated simultaneously along all its length. This is again the effect of the relativity of simultaneity: instead of simultaneous flashes it has turned into a kind " moving flame": first one end has been illuminated, and then the light beam has run speedily along the rod to other end.  As a result, there was a time lag between the illumination of the two ends. If we consider that during this lag, the ruler of the second researcher was essentially displaced in space in relation to the rod. The result of the measurement, in the opinion of the first researcher, was incorrect. Again, the same discrepancy of events at the ends of the rod! It turns out, that a pause in the act of measurement as the result of the effect of the relativity of simultaneity is the cause.

What is the result? If we consider the situation correctly and take into account the relativity of simultaneity it is necessary to say that it is impossibe to simultaneous fix the ends of a rod in two systems at once.  In systems moving relative each other it is impossible to directly compare lengths of the segments located along the line of motion.

Similar reasoning leads to the same conclusion with respect to time intervals. the discrepancy of events at makes it impossible to simultaneously determint the beginning and the end of a time interval in the two systems.

It would be reasonable to consider that nothing unusual occurs in the scale of space and a time in general.  There is only the of displacement of events on the time scale. Thus, the basic impossibility of direct comparison of lengths of segments and time intervals forces us to radically change the attitude towards the Lorentz's transformations equations and the well-known consequences of special relativity. Due consideration of the effect of the relativity of simultaneity leads us through necessity, not only to reconsider all former calculations, but also to cancel all other "relativistic" effects. For all these imaginary "reductions", the paradox of "twins" and other amusing things it is sadly necessary to throw them out of the basket of history. In case of the "twins" all that happens is simply another is displacement on the time scale. When returning, the sign on the speed becomes negative, and displacement occurs in the opposite direction. As a result, there will be no difference in age when they meet.

So, the special theory of relativity reduces to only one phenomenon – spatially caused displacement of events on the time scale.
It is the only new element to be brought into classical mechanics. Thus, the minimum requirement is reached. It is necessary to alter transformations for coordinates and time. There is a reason to avail oneself of the formula of the discrepancy of events, determined by us in the  example of Einstein's train.  As the result of the new transformations, one system will determine:  
 
x' = x -  t
       Where   = dx/dt  ;

For the other system ,:

x = x' - 't'
       Where  ' = dx'/dt'        Thus it is important to note, that  = - ' only in the combined origin of coordinates of the two systems at the moment of intersection. Generally they are not equal.


In view of the change of direction of vector  '  to the opposite in the second case, it is possible to write a scalar,

x = x' + 't'
      

From the formulas in particular, it follows, that in the system moving in the other direction on axis X, events advance relatively, and in an opposite direction, they are delayed. And it is the sole effect which has a place in reality.
                                     
This situation may surprise some; some will be certainly upset or annoyed.  The author perceives all this with a large degree of condescension because he considers this annoying misunderstanding only as one of the many problems in the methodology of physics in the XX century, mentioned earlier.
The new transformations open the gate for other methodologies and philosophies in physical research. Actually it is a question of refusing the current domination of neo-positivism in favour of materialism. 

It is interesting to see how physicists will look to science fiction writers.


 

Ranting and Raving about Renewable Energy

Ranting and Raving about Renewable Energy

Word Count:
616

Summary:
An interesting and insightful article exploring the past and present state of renewable energy initiatives.


Keywords:
Solar, Renewable Energy, Environmental Education


Article Body:
Renewable energy is not a new concept.  While it may appear to be a rather fashionable topic of conversation in certain circles, renewable energy initiatives have been with us since the dawn of man.  There is some debate about the accepted definition of renewable energy, but it can be loosely defined as a form of energy that is essentially inexhaustible.  Furthermore, the resource is continually replenished by various natural processes identifiable in the natural world. 

One key distinction to make when discussing the concept of renewable energy is that of sustainability.  One could make the argument that, in the long term, fossil fuels are a renewable energy resource.  While the logic stands on its own, this is a failed notion.  The central difference between fossil fuels and other forms of renewable energy is that fossil fuels are being depleted at a rate faster than they can be replenished.  For this reason, fossil fuels cannot be considered truly renewable.  They are simply not sustainable, due to the accelerated rate of consumption.

Some of the more popular renewable energy resources include sunshine, water, and wind.  Solar energy refers to the energy that is collected from sunlight.  This form of energy is captured using a photovoltaic array, more commonly known as a solar panel.  The solar radiation is captured by the photovoltaic array and converted to direct current (DC) electricity.  From there, the direct current electricity must be converted to alternating current (AC) for use in most applications.  The converted electricity is then stored in a battery for use at a later date.

There are also various forms of energy that exist in water.  One of the most commonly acknowledged is that of hydroelectric energy, but there are a number of others including tidal power and ocean thermal energy conversion.  Hydroelectric energy generally employs the use of a dam, wherein the energy of the water flow is captured and used to power a turbine.  The turbine then generates a supplementary form of electricity.  Tidal power attempts to make use of the natural energy potential of tidal activity in the oceans and seas.  In simple terms, the high tide is captured and fed through a turbine to generate electricity.  Ocean thermal energy conversion attempts to exploit the variances in water temperature, from the warmer surface water to the cooler deep water, resulting in a cyclic heat engine.

Wind power is one of the oldest accepted forms of renewable energy.  It has been used for centuries as a source of power, dating back to the creation of the sailboat.  The innate potential of wind power was realized a number of years later in the form of a wind mill.  In this instance, the kinetic energy of wind is used to drive a turbine which, in turn, generates electricity.  Wind energy possesses immense potential for sustainable energy generation, and a number of large-scale development projects are currently underway throughout the world.

One of the greatest challenges facing humanity is to discover a way to reduce our reliance on unsustainable resources, like fossil fuels.  Most, if not all, modern industrial societies rely far too greatly on fossil fuels and increasingly, this is becoming an undeniable reality.  Wars of conquest are being waged to secure what is left of the world's oil reserves.  If only the resources of the powerful nations were channeled into developing sustainable energy alternatives, as opposed to driving a war machine bent on dominating the oil markets.  Our modern way of life is going to undergo some difficult times in the very near future, if this reality continues to be ignored.  Ask yourself what you can do to make a difference.  You might be surprised at what you can accomplish.


 

Quantum Gravity May Explain Dark Matter

Quantum Gravity May Explain Dark Matter

Word Count:
442

Summary:
This paper explains that by using the correct quantum law of gravity, there is no need to postulate the existence of dark matter to produce the observed gravity.


Keywords:
science physics quantum gravity dark matter


Article Body:
In the quantum vacuum there are many transient acceleration vectors of mean magnitude a randomly oriented. If the vacuum is viewed from an accelerated frame, the vectors going with the frame appear diminished, and the vectors going against the frame appear enhanced, resulting in a net polarization of the vacuum. If the frame's acceleration g is small, the effect is linear, and if the vacuum is filled with vectors the coefficient of the polarization will be unity. The standard exponential term for suppressing high-energy fluctuations must also be applied. Hence the vacuum polarization is g exp (g/a). The terms of the exponent when multiplied by the dipole moment have the dimensions of energy.

The rest frame of the galaxy, for example, is accelerated with respect to local inertial frames that fall into the center. In this rest frame the vacuum appears polarized and enhances the galaxy's gravitational field g. So we have

g= -GM/r2 + g exp (g/a)

where g is understood to be negative. For g much greater than a, the exponential is negligible and Newton's law results. But for g less than a, the exponential can be expanded to 1 + g/a and we get

g2 = aGM/r2

This is precisely the formula found empirically by Milgrom to explain the motion of stars and galaxies in the weak-field region, except the law of gravity is altered, not the law of motion (Scientific American, August 2002). He finds that a is about one Angstrom per second squared, which is near the "surface gravity" of an electron, the field of a one-kilogram mass at one meter, or the field of a galaxy in its outer parts. Also, the square of a is not far from the value of the cosmological constant, in units where c=1. In this model, a may be viewed as the saturated field strength of the quantum vacuum.

The observations can be adequately explained by assuming a plausible amount of ordinary matter M and using the correct quantum law of gravity. There is no need for dark matter.

As space accelerates away from us, the resulting apparent polarization would enhance the acceleration, and indeed might cause the acceleration, once the process has begun, due perhaps to some disturbance long ago. If space is collapsing in some remote region, the same process would enhance the collapse. So the cosmos may consist of interspersed regions of expansion and collapse. When expansion becomes extreme, a big bang would result as virtual particles are ripped out of the vacuum. A collapsing region would produce a big crunch, where matter is crushed back into the vacuum. The whole process is presumably infinite and eternal.

 

Producing Energy From Geothermal Resources

Producing Energy From Geothermal Resources

Word Count:
455

Summary:
Geothermal energy is a platform tapping the inherent energy found within the Earth. Her is an overview of how the process works from a practical perspective.


Keywords:
geothermal, resources, fuel, fossil, power, energy, production, megawatts, alternative, environment


Article Body:
Geothermal energy is a platform tapping the inherent energy found within the Earth. Her is an overview of how the process works from a practical perspective.

Producing Energy From Geothermal Resources

There are several types of energy used in the world that are considered eco-friendly. These energy types include solar, which harnesses the power of the sun, and hydroelectric, which uses the power of water to generate electricity. One often neglected ecologically sound energy source that should be grouped with the others is geothermal energy. Geothermal energy involves using the Earth's own heat to create energy and warmth to be used by people.

Geothermal energy is so named because it derives from the Greek words for "earth heat", "geo" and "therme". Extreme amounts of heat are generated in the Earth's core, which reaches temperatures of up to 9,000 degrees Fahrenheit. The Earth's core then transfers heat to the mantle, a crust of rock surrounding the core. This rock liquefies due to the intense heat becoming magma (molten rock). In this magma layer, water collects in columns or reserves. This trapped water, which can be heated to temperatures of about 700 degrees Fahrenheit, is known as a geothermal reservoir. When engineers want to use geothermal energy, they "tap" in to this geothermal water and use the resulting hot water and steam for various purposes.

Geothermal energy plants work by using the steam resulting from tapping into the geothermal water reservoirs to power turbines. These turbines spin producing electricity which can then be used to power industries or even residential areas. The first geothermically engineered power plant was built in Italy in 1904.

These days, roughly 7000 megawatts of electricity is produced by geothermal power plants per year. Geothermal power plants are located in 21 countries throughout the world. In the United States alone, enough geothermal power is generated per year to be the equivalent to the burning of 60 million barrels of oil, to wit, geothermal energy is a major source of power.

Geothermal energy has been used by cultures throughout history for thousands of years. The process used to harness geothermal energy has always been relatively simple compared to that of other energy processes, and the components used are familiar to everyone. The concept of using super hot water from the Earth's magma layers may seem high tech, but once you have tapped into this resource, it is easy to maintain and use as a continual power source.

The best analogy for geothermal energy production is another alternative energy source. It works in the same way as hydropower. Water is used to spin turbines which produce electricity. In the case of geothermal energy, however, the water comes from the internal chambers of the Earth in, most often, the form of steam.


 

lunes, 3 de octubre de 2011

President Clinton says Biotech Industry has a Job to Do

President Clinton says Biotech Industry has a Job to Do

Word Count:
427

Summary:
President Clinton's Speech during BIO2006 Convention in Chicago


Keywords:
agriculture, biotechnology, genetically modified food


Article Body:
At the Biotechnology Industry Organization (BIO) convention earlier this month in Chicago, former President Bill Clinton sent a message to those in attendance: the biotechnology industry has a job to do.

In his speech, the former President discussed the importance that biotechnology has in food security and health issues in the developing world. He said the first obligation of society is to feed people and that biotechnology can help individuals feed more people while addressing environmental concerns. He also stressed the need for interdependence in the world today as well as the unsolved problems that biotechnology is uniquely suited to face.

Clinton also discussed the need to efficiently manage agricultural production. He mentioned several key aspects of environmental health that agricultural biotechnology can address, including climate change and top soil erosion.

"All of these applications of biotechnology have the potential to lift people out of poverty," he said.

The former President also asserted that scientific evidence should rule any debate over issues such as genetically modified foods. He said that in America, we "should be driven by science, evidence, and argument, not by assertion and fear."

Former President Clinton called upon the biotechnology industry to work to reduce the spread of a variety of diseases, including infectious diseases, guard against pandemics, create genetically engineered foods that will feed more of the world's hungry, tap into sources of renewable energy, and confront global warming head on.

"When we empower individuals to feed and care for their families," he said. "It is a good thing."

As President, Bill Clinton supported the development of biotechnology and its practical applications in American life, as well as the development of genetic engineering and agriculture, and since he left office in 2001, President Clinton has dedicated almost all of his time to support causes, from raising funds for Hurricane Katrina victims in the United States to helping individuals with AIDS receive the drugs they need. He has seen first hand the needs that biotechnology can address around the world and the good that genetically modified foods can bring to developing nations in feeding the poor.

I agree with what former President Clinton said in his speech. Modern biotechnology holds such an importance in the world today and these continued developments should not be driven by the fearful beliefs that those opposed to biotechnology and genetically modified foods continuously try to impose upon the general public.

The world needs to support biotechnology, genetically modified foods, and the innovative developments the technology can bring in order to ensure a better future and life for all.


 

Pregnancy and the Flu

Pregnancy and the Flu

Word Count:
565

Summary:
Influenza, or the flu, is a very contagious virus that affects the upper respiratory system causing fever, muscle aches, cough, sore throat, runny nose and weakness. The flu usually makes its appearance in winter and early spring, but it can also strike in the fall and late spring as well.


Keywords:
flu, influenza, flu pregnancy, influenza pregnancy


Article Body:
Getting the flu is bad enough, but getting the flu while you're pregnant can be a nightmare. There is a greater chance that you will stay sick longer, there are only have a few medications that you can take to safely relieve flu symptoms, and your risk for developing flu-related complications is increased. That's why the best thing for pregnant women to do during flu season is to take all possible precautions to avoid the virus, including getting a flu shot.

Influenza, or the flu, is a very contagious virus that affects the upper respiratory system causing fever, muscle aches, cough, sore throat, runny nose and weakness. The flu usually makes its appearance in winter and early spring, but it can also strike in the fall and late spring as well. While the virus is a nasty thing for anyone to catch, with pregnancy and the flu it can be particularly risky because a woman's immune system has weakened slightly during the pregnancy. Because of this, pregnant women are more likely to experience symptoms for a longer period of time, and their risk of developing complications, such as pneumonia, is increased. Studies have shown, however, that pregnancy and the flu poses little risk to an unborn child.

The best way for pregnant women to avoid the flu is to get a flu shot. Flu shots are recommended for nearly all pregnant women and are usually given in October or November right before flu season starts. Getting vaccinated is the best way to protect yourself from the virus and can save you a lot of discomfort during the flu season. Other ways to avoid combining pregnancy and the flu include:

Frequent hand washing:

This is one of the most important things you can do for yourself to avoid illness. Wash your hands thoroughly before and after meals, after using the bathroom and frequently throughout the day. Washing your hands with antibacterial soap to get rid of germs is one of the easiest ways to stay healthy.

Stay away from people who have colds or the flu:

Common sense should tell you to avoid people who are already sick. Coming into contact with contagious individuals is an easy way to get sick yourself, so if possible, just avoid sick people altogether until they are no longer contagious.

Keeping your hands away from your nose, mouth and eyes: Germs like to come in through these particular places, so try not to touch them.

If you are unfortunate enough to get the flu, there are a few things that you can do to ease the symptoms and recover faster. Remember though, with pregnancy and the flu, there are many medications that you cannot take because they could be harmful to you or your baby. Be sure to talk to your doctor before taking any medicine to treat your flu symptoms. The following treatments can help if you come down with the flu:

-Acetaminophen for fever, aches, and pains
-Chlorpheniramine, an antihistamine
-Honey or other natural ingredient lozenges for a sore throat
-Lots of rest
-Increased fluid intake, especially water, juice, and tea

Getting the flu is no fun. Getting the flu while you're pregnant is REALLY no fun. Pregnancy and the flu just don't mix, so do your self a favor by getting a flu shot and taking preventative measures to avoid the virus.