Science is the key

Science is the key to unlocking mankind’s most difficult secrets. Science allows all humans to better understand the world which surrounds them. From earliest time to present day and into the future, the pursuits of science allow every human, animal, plant and rock on the Earth to look forward toward more and greater awareness of not just what is happening here, but elsewhere in the universe and even deep inside the sphere we all ride upon.

With branches and disciplines like the roots of an old, overgrown oak tree, Science intertwines itself into every aspect of human understanding. The studies, theories and history of man’s never-ending inquiry into the universe around him have served as a reminder of a fundamental truth; scientific study merits time and attention from all humans, regardless of their past, present or future.

Scientific studies are like perpetual motion machines; each new discovery fuels the desire to discover more. Each new understanding triggers the effort to understand a greater amount. One theory leads to another which leads to even more. Research, development and application of science affects everyone, everywhere in one way or another. And yet, the processes of science, the methods of scientific research and testing, and the truths resulting from the search frequently result in more questions, wrapped by mysteries and surrounded by enigmas.

Pursuit of science is the pursuit of truth. More importantly, the pursuit of science is the pursuit of knowledge which can be shared. It is from this sharing that mankind moves forward. Enlightenment, the byproduct of science, is a thirst which knows no quenching. By gaining a small degree of enlightenment, every scientist and human gains a greater thirst for knowledge. Education is fueled by science and with more and more schools devoting time to teaching science, more students are locking into those gmat prep courses in order to join one of the many branches of science in grad school. Societies excel as the result of science. Human intellect is forged in the furnace of science.

The effect of science and scientific thought is seen everywhere – from the simplest tools to the most complicated of machines. Training in science is both noble and personal. Noble because it is mankind which is the benefactor; personal because it takes only one human to make it happen.

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Chemistry in Science

One of the pillars of science is the discipline of Chemistry. The study of Chemistry breaks into a dozen individual branches. Materials science and Organic chemistry study what is found in the known universe and seek to provide answers to common and complex realities. Biochemistry and Physical Chemistry also endeavor to explain commonly occurring facts of the animal, plant, human and earth science arenas. Inorganic chemistry would be included in all of the above descriptions as well. Analytical and Theoretical chemistry go further to allow understanding of existing theories and possible theories concerning the make-up of the universe around us.

Mathematical Chemistry and Quantum Chemistry search for deeper and greater knowledge of the processes and results of chemical interactions and presence. Computational Chemistry, Cheminformatics, Interface and Colloid science delve into specialized research based on theoretical practices and reasoning. Each area of study continues to grow and gain wider acceptance in mainstream scientific research due to the creation of the modern computer and its ability to analyze, dissect and provide models which scientists can use to better understand the workings and realities of chemical agents and their potential interactions and uses.

Science and Chemistry move forward hand-in-hand as new discoveries shed light on current and potential solutions to issues in modern life. Understanding the relationship of Chemistry within the broader scope of Science has provided many new technologies and capabilities which were not conceivable even twenty-five years ago. Nano-science, as it relates to chemistry, is providing exciting areas of research and development which will help mankind find cures for diseases, stronger, more durable and more-adaptable materials to improve what we wear, where and how we live.

Everything from improved crop production, to lower fuel emissions and better energy usage will result from the inter-disciplinary studies being conducted by chemists all over the world. Once thought to be reserved for singularly-disciplined scientists, Chemistry has grown into a broad, over-lapping and multi-dimensional arena of leading edge knowledge and technologies. The future of Chemistry is as dynamic and compelling as any scientific field of study, incorporating the greatest arena for potential discovery and understanding.

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Earth Science

The array of scientific avenues in the Earth Science discipline covers both time and space. Time is theme of Archeology, Paleontology, and Geology. Beyond each of these disciplines are the areas of Geochemistry, Mineralogy, Geophysics and Tectonics. Space incorporates Astronomy, Astrophysics, Physical Cosmology and Stellar Astrophysics.

There are numerous sub-divisions of each of the disciplines sited above and more research is being assisted world-wide with the advent of the Internet. Scientists from all over the globe are able to conduct research, publish findings and communicate with fellow researchers like never before in human history. This advantage creates unending networks of scientists, theoreticians, researchers and others who can investigate, catalog, and report discoveries within moments of their revelation from different points on the globe.

Archeology and Paleontology, long the disciplines of earth-bound discoverers, have benefited greatly from tools and technology stationed far off in space. Satellites using infra-red, photo and radar imaging have brought about amazing discoveries for the earth-bound searchers, enabling them to locate and record data from regions previously inaccessible. More importantly, many discoveries remained unexplored due to the size and physical area incorporated in their structure. Ankor Wat, the amazing city built thousands of years ago in modern day Cambodia, was long thought to be a system of temples and buildings covering a ten-mile square area. Satellites have shown Ankor Wat is actually hundreds of square miles in area, due to the photographic and radar-enhanced views beamed to earth. Scientists are now re-writing the books on the scope and dimension of this early civilization’s impact on the entire region of Southeast Asia.

Technological wonders like the space-based telescopes employed by the new wave of scientists investigating the Cosmos have given new insight into Earth’s place in the solar system and the galaxy at large. Vast distances, unimaginable fifty years ago, can be viewed through the eyes of the orbiting platforms sending back amazing images, spectral light scans and detailed chemical analysis of what the stars are truly made from. Theoretical science has, in many aspects, become proven scientific facts thanks to these space-based microscopes focused on our universe.

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Environments of Science

The environments of science are as varied as the world itself. Certainly, a great of scientific effort and research is conducted in laboratories and classrooms around the globe, however, much of science’s work is done in the natural environments stretching from the Arctic to the Antarctic. Science isn’t for the faint-hearted. More and more research, experimentation and testing is done in environments far away from the clean, sterile confines of a laboratory.

Science has always been a discipline literally on the move. Sampling, exploring, testing and observation have always been conducted “in the field”. Many hypotheses have been proved or disproved by researchers who toil in jungles, deserts, ice fields and oceans. Being able to transition from the natural environment to a laboratory environment makes the pursuit of science a unique and multi-faceted career choice. While some scientists work exclusively in laboratories, many choose paths that provide a broader, more involved experience with their studies.

Satellites, un-manned vehicles and long-distance probes have created new disciplines in technologies that are used to gather samples, information and data about subjects of interest. An education in science often includes additional instruction in uses of the newest tools and methods which can produce greater opportunities to collect materials needed for experiments and research.

White lab coats and safety goggles have given way back packs, safari hats and portable laptops. Every aspect of scientific methodology has changed significantly in the last twenty years with the advent of the Internet, cellular technology, and the vast array of new tools to aid in collection, analysis, and dissemination of the resultant information.

Current application of the newest technology has been able to open (and re-open) areas of study and subjects for research once considered too difficult or impossible to investigate. Science is constantly reinventing itself and its processes by embracing the leading-edge technology being created by the finest minds in history. And future trends don’t seem to see anything but greater and greater increases in capability.

Ever since Indiana Jones escaped from the giant ball of granite, scientists and science have been seen in a very different light.

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Schools of Science

Schools of Science range from the venerable Massachusetts Institute of Technology (MIT) to the Bronx High School of Science. To be fair, both are respected as established centers of learning. The Bronx High School of Science has been in session since 1938, making it one of the oldest existing institutions dedicated to teaching science in the world. MIT was established in 1932 and has since become one of the pre-eminent schools of learning and research.

Hundreds of schools endeavor to teach and conduct research so that their students will join the ranks of scientists engaged in millions of projects underway every day around the world. Schools of science have existed since earliest recorded history. Aristotle was considered a scientist, among other skills and talents. Throughout western and eastern history, schools devoted to teaching science and scientific processes have existed in virtually every major metropolitan society.

The Chinese invention of the compass circa 1050 A.D. was the result of scientific research into magnets and magnetic fields. Credited with the invention of gunpowder, making paper and printing, the Chinese culture obviously valued science and scientific thought at a very early stage of its development. As far back as 100 A.D., the Chinese had created a reliable earthquake detection machine.

In the Muslim sphere, a book about Optical devices and principles was written around 1000 A.D. and other texts have been discovered written as much as 150 years earlier. Some of the earliest universities established in Europe in the 12th and 13th centuries devoted curriculum to science and research.

Unfortunately, history is replete with stories of destruction and annihilation of libraries containing volumes of scientific works due to wars. From Constantinople to Baghdad and Beijing, war consumed vast quantities of human understanding and experimentation, setting back the progress of mankind’s knowledge temporarily. Pestilence and plague also took their toll on science and scientists. Western religion initially curtailed scientific advances but over time, religious scholars saw the value of greater understanding of the surrounding world.

Throughout the world, technologically advanced, ultra-modern schools, colleges and universities have secured Science’s place in all future human endeavors.

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Science as Entertainment

Science can be as entertaining as any other form of spectacle. Even in the earliest societies and cultures, science provided the means to awe crowds and control vast distances of geography. Early man experienced science during religious or cultural ceremonies, utilizing naturally-occurring phenomenon to augment their messages and control. Ancient Druids and Meso-American cultures used scientific study of lunar and solar cycles to create buildings and temples aligned to use the sun and moon to augment religious observances.

The Greeks used science to created steam and water-powered devices intended to strike awe and gain compliance among the worshippers of the gods. Mechanical wizardry created self-opening doors, water fountains that dispensed holy water upon receipt of a coin and singing mechanical birds. Given the average education of the average Greek, these inexplicable realities could only have come from the gods.

Shamans and witch doctors threw copper and iron powder into fires, eliciting bright, powerful colors in the flames. These practices led to discoveries in metallurgy and chemistry. Alchemists promised gold from lead and blacksmiths turned rough iron into fine steel employing secret and ancient formulas.

Egyptians created formulas for paints and dyes that still retain their patina and color 3,000 years after their first application. All cultures used natural ingredients, sometimes employing intricate and complicated processing techniques, to create make-up, dyes and paints. In ancient Rome, only the wealthiest citizens wore robes with purple linen, dyed from a secret chemical process using extracts from a specific species of clam, which, only recently had been duplicated by modern science.

In modern times, science has played a large role in entertainment. Electricity was used as a visual extravaganza at World’s Fairs. Chemistry has created all types of new materials and devices used to entertain and amaze audiences. Even the Mecca of modern entertainment, Hollywood, employs science in practically every form to create, destroy, engage and amaze movie-goers all over the world. And sometimes, even the imaginary science of Hollywood is being used as the basis of real science. Warp drives, phaser guns and transporters that scatter and perfectly re-assemble atoms are under research.

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Future of Science

The future of science is secure and at the same time, unlimited. According to numerous scientific observers, the next 50 years will be more explosive in terms of scientific discovery and understanding than the last 400 years. Interdisciplinary efforts using all the modern tools and processes will combine to produce informational data on any subject which will be available to anyone anywhere. With the creation of computer-based modeling and experimenting, scientists can hypothesize, experiment, record and theorize at exponential rates in terms of the time traditionally required to conduct research.

Advances in computer simulation technology, digitalization of all forms of data and material, and the ever-broadening presence of the Internet will revolutionize the traditional methods of exploration and observation. The knowledge base of information known as Wikipedia sets the standard for compilations of information and materials which can be added on to and expanded at phenomenal rates. Access to information will eventually become an unrestricted right of all people, regardless of their location or culture.

Science itself will have some difficulty keeping up with itself in terms of new data, new methods of interpreting the data, and revolutionary processes of utilizing the data as it applies to scientific research. Leading edge technologies and capabilities in computers, information systems, and communications will create a universe of information and education beyond any known traditional resource previously available.

Non-traditional methods of educating future scientists, adaptation of biological and mechanical processes aimed at installing information in the human brain and development of artificial intelligences which can function independently of any human counterpart will increase man’s knowledge base at rates beyond current comprehension. Man’s future will be closely interwoven with the future of his creations.

The ultimate future of science is the future of humankind. Human beings must learn how to organize and utilize the developing information base in an organized manner so that the maximum benefit can be derived from the process, without losing any aspects of humanity. Science can not be pursued solely for the sake of science. Science should serve mankind as it expands its capabilities to provide for the human race.

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Taking an LSAT Prep Course to Tie Into Your Science Background

Learning about science can be interesting, and there are a lot of things you can do with that knowledge. Most people think of scientists as people in white coats who never leave their labs, but that’s not really true. They do many different things and work with all kinds of people from all walks of life. They’re even called on to testify at trials sometimes, because they work in the fields of law and forensics. If you’re planning to be involved with that type of science, you may want to consider taking a test to get into law school, so you can learn both sides of the job you’ll be doing.

If that’s an option for you, take an LSAT prep course so you can be ready for the testing you’ll have to take. Couple that with your science background and you’ll be able to see whether you want a career working with both science and law. People who have these kinds of careers are sometimes called upon to work with forensics. Some of them also work as expert witnesses during trials so that people who’ve harmed others can be convicted. Science and law often come together, and there’s money to be made where the two disciplines merge.

Anyone who’s interested in science can also get involved in other aspects of it. Environmental issues are becoming more and more important right now, so that’s another big area where scientists are needed. It’s not just about studying environmental problems and climate change, but it’s also about coming up with ways to treat the problems that are being seen and keep the earth healthy. Sometimes, environmental lawyers also use scientists to address these kinds of issues, so having a background in both law and science can set you up for a long-term and lucrative career.

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LIfe Science

Life Science looks into the building blocks of life on Planet Earth. Biology, Anatomy, Ecology, Botany and Zoology are some of the major areas of study and research, however, each main area is divided into numerous other, specific disciplines which provide greater insight into how and why life works in such miraculous ways. Each animal or plant presents new opportunities for in-depth study and understanding, revealing how the symphony and ever-changing manifestations of living creatures affect themselves and each other.

New discoveries in Genetics have unlocked mysteries which can solve human suffering from deadly afflictions like cancer and genetic defects. Even human life and the lives of other creatures can be enhanced and lengthened through the development of new genetic codes and better understanding of how genetics evolves in each generation of any living organism.

Marine Biology studying the life cycles and activities of animals living in the oceans, rivers and lakes has created ground-breaking information in the way all beings have evolved and adapted to the constantly-changing environment on Earth. Ecological studies have dispelled myths and misconceptions about the interplay of plants and animals in any given environment and how that microcosm of life can affect a wider-ranging set of conditions in a given ecosystem.

Global Warming, El Nino and La Nina ocean currents, and even specific conditions that result in hurricanes crossing the oceans have begun to see the effects of studying the make-up of mankind, plants and animals and how they can be a factor in modern daily life. Plants and animals have been studied to determine if they are accurate predictors of weather patterns, ocean current changes and other ecological phenomenon. Science can now truly discern whether a butterfly’s wing beat in West Africa can be the catalyst which results in a hurricane over the Bahamas.

Interdisciplinary research coupled with wide-ranging networks of researchers, scientists and students have helped expose connections between man, plants and animals which were unheard of less than twenty years ago. Continuing exploration into the natural world and Life Sciences will answer important questions regarding man’s place in the cycle of life.

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The Science Behind New York Luxury Condos

The word “science” is derived from a Latin word that means knowledge. In its broadest sense, science can describe any systematic knowledge that results in either a reliable outcome or a correct prediction. Science, then, can refer to highly skilled techniques, practices and technologies. Science is applicable to nearly every aspect of our lives.

The scientific method is used to acquire knowledge through research and understanding. The scientific method allows for gathering of knowledge about a subject and then condensing that knowledge into theories and laws that are testable. There are different types and subsets of science depending on the subject in question, and both restricted and abstract ways to look at the subject of science.

One way that you can look at science is that it allows you to come to conclusions about things. For example, you may use scientific theories and methods to arrive at simple or complex decisions. Even decisions that do not appear scientific can still rely on scientific theories or methods coupled with mathematics, philosophy and psychology to come to a conclusion. For example, you may use elements of science when you shop for New York luxury condos. You can apply scientific methods to arriving at decisions throughout many aspects of your life.

In many ways, science is specifically applied to studying the natural, non-human world in a disciplined manner. When shopping for the location of a condo, then, you might consider nature, climate, geographical location and other elements relating to science. These considerations will definitely impact your decision when it comes to finding and buying a luxury condo because they play a role in your enjoyment of the property. When it comes to buying a condominium, or any other property, science will play a role in your decision-making, even if you do not see it at first.

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