History of Tuberculosis Essay example -- Medical Biology Disease TB

History of Tuberculosis Abstract This paper discusses the historical aspect of the fatal and contagious disease now known as tuberculosis. It discusses the history of Tuberculosis beginning with Ancient Egyptian mummies to the most current discovery of TB. Greek philosopher such as Hippocrates and Plato observed the first cases of tuberculosis. They are two out of the many people that gradually discovered the TB out of the many. It talks about the different remedies that different philosophers and physicians came about that have been revised. Tuberculosis, also known as â€Å"the white plague,† (The history of tuberculosis 2) is a silent and unknown prehistoric air borne disease that quickly spreads and kills nearly two million people worldwide (Tuberculosis-Revolution). Today, tuberculosis is the most deadly disease known to man, more deadly than HIV/AIDS. Despite advances in treatment, TB is a global pandemic, fueled by the spread of HIV/AIDS, poverty, a lack of health services and the emergence of drug-resistant strains of the bacterium (Tuberulosis-revolution Health). However, TB has an unknown past, and in order to understand tuberculosis, one must know its history. Evidence of Mycobacterial infection has been found in the mummified remains of Ancient Egyptians 1000 B.C. The â€Å"Father of Medicine,† Hippocrates (460-377 B.C), made the first breakthrough in TB research. He named the disease â€Å"phthisis,† which means the â€Å"shrinking of the body,† because the majority of the cases he found occurred in the spinal area. However, the majority of the population of that time commonly called the illness, â€Å"Pott’s disease.† Which is tuberculosis of the spine. The Greeks thought that phthisis was a heredity issue, while others though... ...http://www.revolutionhealth.com/conditions/lung/tuberculosis/tubercul osis?section=section_00>. "Defintion: Sputum from Online Medical Dictionary." 1997-2007. Center of Cancer Education. 29 Jul 2007 . "Healthline-Dictionary Search." Healthline-Scofula. 2005-2007. Center of Cancer Education. 23 Jul 2007 . The History of tuberculosis. 2005-2007. Center of Cancer Education. 23 Jul 2007 . â€Å"Tuberculosis." EncyclopÊdia Britannica. 2007. EncyclopÊdia Britannica Online. 29† July†  2007http://www.britannica.com/eb/article-253299. Brief History of tuberculosis." Brief History of TB. 23 Jul 2007 .

Green Building And Zero Energy Trends Environmental Sciences Essay

As we move into the twenty-first Century, new and unplanned fortunes are get downing to determine our lives, our architecture and our metropoliss. It is going clear that the impact we ‘re making on our milieus is holding an consequence on the well being of our planet and its ecosystems every bit good as our populations, motivating us to eventually take action towards a better hereafter. Global heating and it ‘s formidable menaces have scared us and given corporations incentive to market its relinquishing, which at times is identical as to whether or non these are honest efforts or merely catchs. Similarly, the statement on whether or non we are in at hand danger is merely as controversial. The follow up to this reaction has been an overpoweringly undisputed motion toward eco-friendly tactics in a figure of professions including concern, medical specialty and architecture, merely to call a few. However, in the terminal all of this predication breeds the coevals of new type s, coercing us to re-think the manner that we live. For architecture, these creative activities come in the signifier of zero-energy and green edifices. Zero-energy edifices ( ZEB ) are edifices that use zero-net-energy ingestion and breathe zero-carbon emanations. They are convenient in that they can be used autonomously from the energy grid supply and energy can be harvested on-site. Although these edifices are province of the art, there is a trade off between pecuniary cost and the benefit that they offer. Green edifices should non be confused with zero-energy edifices, nor are they reciprocally sole from being zero-energy. Green edifices by and large differ from zero energy edifices in that they engage in the pattern of making constructions and utilizing procedures that are environmentally responsible and resource-efficient throughout a edifice ‘s life-cycle. In theory, it should stay consistent to its purpose throughout the full edifice procedure from design, building, operation, care, redevelopment, and deconstruction. In both instances, the purpose is to spread out and complement the classical edifice design concerns of economic system, public-service corporation, lastingness, and comfort. Green edifices have been in conceptualisation for old ages now, dating back to the motion ‘s head in the 1960 ‘s when Rachel Carson wrote soundless spring and DEET was outlawed. However, the development of modern zero-energy edifices merely became possible more late, non merely through the advancement made in new building engineerings and techniques, but through significantly improved academic research on traditional and experimental edifices that collect precise energy public presentation informations. Such edifices are developed utilizing advanced computing machine theoretical accounts that can demo the efficaciousness of technology design determinations. Subjectively, energy usage can be measured in different ways ( associating to cost, energy, or C emanations ) and, irrespective of the definition used ; different positions are taken on the comparative importance of energy crop and energy preservation to accomplish a net energy balance. Although zero energy edifices re main uncommon in developed states, they are deriving in importance and popularity merely because the zero-energy attack has possible to cut down C emanations, and cut down dependance on fossil fuels. It is besides of import to observe that most ( ZEB ) definitions do non include the emanations generated in the building of the edifice and the corporal energy of the construction. This means that in many instances so much energy is used in the building of a new edifice that this can shadow the operational energy nest eggs over its utile life. A coincident illustration of such architecture is zero energy ( from dodo fuel ) house no.1 by zoka Zola architecture + urban design. This house is built on a dual batch and is situated 3 stat mis west of the Chicago Loop. The designers dedicated themselves to merely utilize energy generated on site and saw their edifice as a accelerator that would hopefully be an inspiration to other householders and developers in urban environments. A batch of the discrepancy and control throughout the house is done through the operation of its operable Windowss. In the summer, the Windowss allow cross airing and in the winter, warm sunshine inundations the shoal suites through big south-facing Windowss. These Windowss besides provide a battalion of positions to the out-of-doorss. The clients of this house had a passion for gardening so in add-on to building an urban single-family place that is ecological, socially regenerative, and self-sustaining the designers besides incorporated multiple gardens including a few roof deck gardens. The accessible green roofs promote bio-diversity and absorb H2O overflow, while insulating the inside and protecting the roof from thermic daze and extremist violet impairment. They divided the house into four zones. Bathrooms are stacked and ventilated as an stray country of higher wet and heat. The kitchen is ventilated as an stray country of higher wet, heat, and olfactory property. The life and dining infinites are located on the west side of the edifice where 1 can bask the last beams of the eventide Sun after work. The degage Multi-Use infinite is employed as portion of the garden and is on occasion heated and cooled. These tendencies are surely non sole to individual edifices. In the development of its popularity, zero-energy edifice has had its influence on the development of territory programs. An illustration of such a edifice site would be Beddington Zero Energy Development ( BedZED ) . BedZED is a lodging development in Hackbridge, London, England designed to back up a more sustainable life style. Because of BedZED ‘s low-energy-emission construct, autos are discouraged and alternatively the undertaking encourages public conveyance, cycling, and walking, and has limited parking infinite. Electric and liquefied-petroleum-gas autos have precedence over autos that burn gasoline and Diesel, and electricity is provided in parking infinites for bear downing electric autos. All of the houses on the site face to the South and come equipped with roof top solar panels, 777 mA? of solar panels entire, to take advantage of the increased solar addition from that way. The energy that is so harvested is either used throughout the abode or fed back into the grid. Most of the rain H2O that falls onto BedZED ‘s site is harvested for a ulterior day of the month and in add-on, contraptions are chosen to be water-efficient and utilize recycled H2O when possible. BedZED besides uses green constructing schemes like utilizing low-impact stuffs ( LIM ) . LIM stuffs on this site were selected from renewable or recycled beginnings within 35 stat mis of the site, to minimise the energy required for transit. Finally, BedZED is host to legion waste recycling installations that are designed to back up recycling. The consequences that BedZED put forth old ages after execution are amazing. The development efficaciously reduced space-heating demands by 88 % , hot-water ingestion by 57 % , The electrical power used was 25 % less than the UK norm, 11 % of which was produced by the roof-top solar panels, Mains-water ingestion has been reduced by 50 % and the occupants ‘ auto milage is 65 % less on norm. These are all startlingly dramatic consequences toward efficiency, but when it comes down to it BedZED was nil more than norm when the sum nursery gasses emitted throughout building were calculated. The consequences showed that the corporal environmental impacts of BedZED ‘s building stuffs were similar to standard UK lodging. The entire corporal CO2 of BedZED is 675kg/m2, while the typical volume house embodies 600-800kg/m2. So, as one can see there are tremendous advantages to the finished merchandise in respects to zero-energy edifice, but it seems as though the existent problem is c aused by the outsourced agencies of edifice. While edifices have been a first measure for green and zero-energy tendencies and territory communities have acted as proving evidences for larger execution, there have n't been any stairss toward developing wholly zero-energy C impersonal green metropoliss until merely late. The name of the undertaking is Masdar metropolis and it ‘s planned to be located in Abu Dhabi, in the United Arab Emirates. Its nucleus is a planned metropolis, which is being built by the Abu Dhabi Future Energy Company, a subordinate of Mubadala Development Company, with the bulk of the capital provided by the authorities of Abu Dhabi. Designed by the British architectural house Foster + Partners, the metropolis is planned rely wholly on solar energy and other renewable energy beginnings, with a sustainable, zero-carbon, zero-waste ecology. The undertaking was initiated in 2006 and was planned to be finished in 2009. The entire production cost will be 22 billion dollars and will cover 2.3 square stat mis will be home to 45,000 to 50,000 people and 1,500 concerns, chiefly commercial and fabricating installations specialising in environmentally-friendly merchandises. Even though the metropolis will be resident to about 50,000 people, it still holds a prohibition on cars within the metropolis. Travel will be accomplished via public mass theodolite and personal rapid theodolite systems, with bing route and railroads linking to other locations outside the metropolis. Masdar is set to utilize a assortment of renewable power resources, among the first being a 40 to 60 megawatt solar power works which will provide power for all other building activity. In this manner, Masdar metropolis is a monolithic betterment from BedZED in that it has thought through a more eco-friendly agencies of building throughout the whole metropolis. Masdar ‘s solar power works will subsequently be followed by a larger installation and like BedZED ; extra photovoltaic faculties will be placed on rooftops to supply auxiliary solar energy to the metropolis. Wind farms will be established all around the outside the metropolis ‘s margin, capable of bring forthing up t o 20 megawatts. The H2O supply has been planned out merely as exhaustively. How it works is the metropolis will house a solar-powered desalinization works which will be used to supply the metropolis ‘s with clean imbibing H2O. Approximately 80A per centum of the H2O used will be recycled and waste H2O will be reused every bit much as is possible with this greywater being used for harvest irrigation and other intents. Similarly to BedZED Masdar metropolis besides has a focal point on waste recycling. The program is to utilize biological waste to make nutrient-rich dirt and fertiliser. Some waste will be utilized through incineration as an extra power beginning and industrial waste will be recycled or re-purposed for other utilizations. If all of this is n't singular plenty, Masdar will be host to several province of the art academic installations focused on the promotion of renewable energy techniques. The first of these establishments to open is the Masdar Institute of Science and Technology. Developed in cooperation with the Massachusetts Institute of Technology ( MIT ) , the Masdar Institute of Science and Technology is a post-graduate university focused on the scientific discipline and technology of advanced renewable energy, environmental engineerings and sustainability. First opened to pupils in September 2009, by 2011 the institute will offer 10 Masters plans and its first PhD plans in renewable energies and sustainable engineerings. These academic inducements are hoped to promote an environment that will further the following coevals of scientific finds. A more recent part to the development of zero-energy metropoliss is Zira Island. Designed by the Danish house of Bjarke Ingels Group ( BIG ) has merely released inside informations of their maestro program for a zero energy resort and amusement metropolis on Zira Island, which is located within the bay of Baku, Azerbaijan. Unlike Masdar metropolis, Zira Island attempts to let the signifier of its man-made landscape to use the aggregation of energy. The program calls for approximately 10.8 million square pess of architectural landscape based on the natural landscape of Azerbaijan.A Zira Island is set to have seven residential developments, each in the form of one of seven extremums of Azerbaijan, and 300 private Villas with positions over the Caspian Sea.A The metropolis is designed to be wholly independent of external resources and to supply, â€Å" high terminal populating with low terminal ingestion of resources. † All of this is expected to be accomplished by using the Casp ian Sea for heating/cooling with heat pumps, puting photovoltaic panels strategically on frontages and rooftops, incorporating solar thermic panels into the architecture, garnering air current power from an offshore air current farm and eventually through waste and storm H2O aggregation, intervention, and reuse in landscaping. The methods are really similar to Masdar metropolis, except the integrating of the systems into the manufactured landscape is much more cohesive in this design. However, one must maintain in head that this metropolis ‘s design is still really conventional at this point.

What Is the National Snow and Ice Data Center

The National Snow and Ice Data Center (NSIDC) is an organization that archives and manages scientific data issued from polar and glacier ice research. Despite its name, the NSIDC is not a government agency, but a research organization affiliated with the University of Colorado Boulder’s Cooperative Institute for Research in Environmental Sciences. It does have agreements with and funding from the National Oceanic and Atmospheric Administration (NOAA) and the National Science Foundation. The Center is led by Dr. Mark Serreze, a faculty member at UC Boulder. The stated goal of NSIDC is to support research into the world’s frozen realms: the snow, ice, glaciers, frozen ground (permafrost) that make up the planets cryosphere. NSIDC maintains and provides access to scientific data, it creates tools for data access and to supports data users, it performs scientific research, and it fulfills a public education mission.   Why Do We Study Snow and Ice? Snow and ice (the cryosphere) research is a scientific field which is extremely relevant to global climate change. On one hand, glacier ice provides a record of past climates. Studying the air trapped in ice can help us understand the atmospheric concentration of various gases in the distant past. In particular, carbon dioxide concentrations and rates of ice deposition can be tied to past climates. On the other hand, ongoing changes in the amount of snow and ice play some key roles in the future of our climate, in transportation and infrastructure, on freshwater availability, on sea level rises, and directly on high-latitude communities. The study of ice, whether it’s in glaciers or in polar regions, presents a unique challenge as it is generally difficult to access. Data collection in those regions is expensive to do and it has long been recognized that collaboration between agencies, and even between countries, is necessary to make significant scientific progress. NSIDC provides researchers with online access to datasets which can be used to detect trends, test hypotheses, and build models to evaluate how ice will behave over time. Remote Sensing as a Major Tool for Cryosphere Research Remote sensing has been one of the most important tools for data collection in the frozen world. In this context, remote sensing is the acquisition of imagery from satellites. Dozens of satellites currently orbit the Earth, collecting imagery in a variety of bandwidth, resolution, and regions. These satellites provide a convenient alternative to costly data gathering expeditions to the poles, but the accumulating time series of images require well-designed data storage solutions. NSIDC can assist scientists with archiving and accessing these massive amounts of information. NSIDC Supports Scientific Expeditions Remote sensing data is not always sufficient; sometimes scientists have to collect data on the ground. For example, NSIDC researchers are closely monitoring a rapidly changing section of sea ice in Antarctica, collecting data from the seafloor sediment, the shelf ice, all the way up to the coastal glaciers. Another NSIDC researcher is working towards improving scientific understanding of climate change in Canada’s north by using indigenous knowledge. The Inuit residents of the Nunavut territory hold many generations’ worth of knowledge on snow, ice, and wind seasonal dynamics and provide a unique perspective on ongoing changes. Important Data Synthesis and Dissemination NSIDC’s best-known work is perhaps the monthly reports it produces summarizing Arctic and Antarctic sea ice conditions, as well as the state of the Greenland ice cap. Their Sea Ice Index is released daily and it provides a snapshot of sea ice extent and concentration going all the way back to 1979. The index includes an image of each pole showing the extent of ice in comparison to an outline of the median ice edge. These images have been providing striking evidence of the sea ice retreat we have been experiencing. Some recent situations highlighted in daily reports include: January 2017 averaged the lowest January Arctic ice extent since records have been kept in 1978.In March 2016 the extent of Arctic sea ice peaked at 5.6 million square miles, the lowest extent observed, beating the previous record established in – no surprise – 2015.