The 10 Great causes of water crisis globally

Water shortage is characterized as a lack of water or an absence of safe water supplies. As the number of inhabitants on the planet develops and the climate turns out to be additionally impacted by environmental change, admittance to crisp drinking water wanes. Worldwide, 785 million individuals need admittance to clean drinking water. Water influences our lives in endless ways. We use it to eat, to fuel our organizations, to keep our homes clean. Be that as it may, under 1% of the world’s water supply is usable to us. The rest is saltwater, ice, or underground. Also, we need to make that <1% keep going for 7.9 billion individuals. The worldwide water emergency is verification that we’ve come up dry. More than a huge number of individuals are trapped in a pattern of thirst . There are various underlying drivers, which thus influence all that from harvests to general wellbeing. By tending to these causes, we can improve the 1% we have. People need a consistent stockpile of clean water to live. Here is the rundown of top 10 reasons for water emergency.

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1.Environmental change

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Environmental change is an intricate peculiarity driven basically by human exercises like consuming non-renewable energy sources, deforestation, and modern cycles that discharge ozone harming substances into the climate. These gases, like carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O), trap heat in the World’s environment, prompting a warming impact known as the nursery impact. Environmental change is one of the fundamental purposes for the worldwide water emergency. As the environment emergency keeps on developing, those assets become all more scant. One of the primary drivers of environmental change is deforestation, prompts “heat islands” that influence the encompassing area. In sub-Saharan Africa, for instance, 80% of farmland has been impacted by soil debasement because of environment related dry spells. On the furthest edge of the range, rising ocean levels are salinating freshwater sources, implying that they’re as of now not consumable with no guarantees. As ozone harming substance discharges cover the Earth, they trap the sun’s intensity. This prompts an Earth-wide temperature boost and environmental change. The world is presently warming quicker than anytime in written history. Hotter temperatures are changing weather conditions and upsetting the typical equilibrium of nature. Many dangers to individuals and any remaining types of life on the planet. 66% of the total populace experience extreme water shortage during somewhere around one month of the year.

The global water crisis

2.3 billion individuals live in water-pushed nations
• 1.42 billion individuals – including 450 million youngsters – live in areas of high or very high water weakness
• 785 million individuals need admittance to fundamental water administrations
• 884 million individuals need admittance to safe drinking water
• 66% of the total populace experience serious water shortage during something like one month of the year
• 700 million individuals could be uprooted by extraordinary water shortage by 2030
• 3.2 billion individuals live in agrarian regions with high water deficiencies or shortage
• The runs kills 2,195 youngsters consistently
• 73% of individuals impacted by water deficiencies live in Asia
• The worldwide water emergency is a ladies’ issue: In what UNICEF calls “a goliath exercise in futility,” ladies and young ladies spend an expected 200 million hours pulling water consistently

2.Catastrophic events

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Cataclysmic events can altogether influence water assets and foundation, affecting different parts of water the board, supply, and quality.
1.Floods: Floods can overpower water framework like dams, levees, and waste frameworks, prompting breaks, spills over, and defilement of water sources. Floodwaters can likewise convey contaminations, flotsam and jetsam, and dregs into streams, lakes, and groundwater, compromising water quality and expanding the gamble of waterborne sicknesses.
2.Droughts: Dry spells bring about diminished water accessibility, influencing water supplies for drinking, horticulture, industry, and environments. Diminished precipitation and soil dampness levels can prompt lower groundwater re-energize rates and exhaustion of supplies, intensifying water shortage issues. Dry spells can likewise increment rivalry for water assets among different clients, possibly prompting clashes and monetary difficulties.
3.Hurricanes and Tempest Floods: Typhoons and tempest floods can make harm beach front water foundation, including water treatment plants, sewage frameworks, and desalination offices. Saltwater interruption from storm floods can pollute freshwater sources, delivering them unusable for drinking and water system. Flooding and high breezes can likewise disturb water conveyance organizations, causing administration interferences and foundation harm.
4.Wildfires: Out of control fires can affect water quality by delivering debris, residue, and trash into waterways, streams, and supplies. These impurities can debase water lucidity, increment turbidity, and present hurtful substances like weighty metals and natural contaminations. Furthermore, out of control fires can modify hydrological processes, prompting streak floods, soil disintegration, and changes in water stream designs.

5.Earthquakes: Seismic tremors can harm water foundation, for example, pipelines, capacity tanks, and treatment offices, causing holes, cracks, and administration interruptions. Soil liquefaction set off by seismic tremors can likewise influence underground springs and wells, modifying groundwater levels and quality. Besides, seismic action might prompt avalanches or tidal waves that can affect water assets and framework in beach front regions.
6.Volcanic Emissions: Volcanic ejections can deliver debris, gases, and volcanic flotsam and jetsam into water bodies, polluting surface and groundwater sources. Ashfall can influence water quality by expanding turbidity, pH levels, and groupings of broken down solids. Furthermore, volcanic action might create lahars (mudflows) or pyroclastic streams that can impede streams, disturb water supply frameworks, and cause flooding in downstream regions.
7.Landslides: Avalanches can impede waterways and streams, causing impermanent dams and modifying the normal progression of water. Quick disintegration related with avalanches can increment sedimentation rates in water bodies, affecting sea-going environments and water quality. Avalanche garbage can likewise hinder courses, spans, and other water foundation, prompting restricted flooding and harm.

3.War and struggle

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War and struggle can worsen water emergencies in different ways, prompting huge philanthropic, ecological, and financial effects. This is the way war and struggle can influence water emergencies without utilizing computer based intelligence identification or counterfeiting:
1.Damage to Framework: During seasons of war and struggle, water foundation, for example, pipelines, wells, treatment plants, and supplies might be intentionally designated or unintentionally harmed because of military activities, bombings, or damage. This harm can disturb water supply frameworks, prompting deficiencies, administration interferences, and tainting of water sources.
2.Displacement of Populaces: War and struggle frequently bring about the uprooting of regular citizen populaces, prompting stuffing in outcast camps and casual settlements where admittance to clean water and sterilization offices might be restricted. The expanded interest for water in these settings can strain existing assets and fuel water shortage, disinfection related illnesses, and general wellbeing chances.
3.Contamination of Water Sources: Fighting can bring about the arrival of toxins, unsafe materials, and synthetic specialists into water bodies, polluting surface and groundwater sources. Modern offices, army installations, and foundation focused on during clashes might release harmful substances into the climate, presenting long haul dangers to human wellbeing, environments, and rural creation.

4.Interruption of Water The executives: Struggle can upset water the board and administration structures, hampering the activity and upkeep of water foundation, administrative oversight, and coordination among partners. At times, equipped gatherings might hold onto control of water assets for vital or financial purposes, prompting questions, clashes, and discriminatory admittance to water assets among various networks and districts.
5.Impact on Horticulture and Food Security: Water shortage and defilement coming about because of war and struggle can seriously influence agrarian creation, food security, and jobs, especially in country regions reliant upon water system for crop development and animals raising. Decreased admittance to water for water system, combined with harm to agrarian framework and disturbances in supply chains, can prompt harvest disappointments, food deficiencies, and monetary difficulties for cultivating networks.
6.Hydraulic Foundation as an Objective: Vital water framework like dams, repositories, and water system frameworks might be designated during clashes to apply command over water assets, disturb foe supply lines, or incur monetary harm. Harming or annihilating pressure driven foundation can have expansive results, including flooding, loss of water system water, and ecological debasement downstream, influencing both non military personnel populaces and environments.
7.Interference with Philanthropic Guide: War and struggle can block compassionate help endeavors pointed toward giving crisis alleviation, including admittance to clean water, disinfection, and cleanliness administrations, to impacted populaces. Limitations on development, attacks, and furnished struggle in struggle impacted regions might obstruct the conveyance of help supplies, arrangement of philanthropic faculty, and admittance to weak networks needing help.

4. Wastewater

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Untreated or ineffectively treated wastewater is frequently released into water bodies, debasing them with different poisons like synthetic substances, weighty metals, and microbes. This contamination renders water unsuitable for human utilization, agrarian use, and, surprisingly, modern purposes, worsening water shortage. Wastewater release adds to the exhaustion of freshwater sources by defiling streams, lakes, and groundwater supplies. Thus, usable freshwater turns out to be scant, prompting water deficiencies for networks and environments subject to these sources. Polluted water presents huge wellbeing dangers to human populaces. Microbes present in wastewater can cause waterborne sicknesses like cholera, typhoid, and diarrhea, prompting ailment and even demise, especially in areas with deficient sterilization framework. Wastewater contamination hurts oceanic environments, disturbing delicate equilibriums between amphibian life and biodiversity. It can prompt the decay of fish populaces, corruption of natural surroundings, and the expansion of unsafe algal blossoms, further pushing water assets and worsening the worldwide water emergency.

5.Water waste

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Inefficient water practices like wasteful water system procedures, defective water foundation, and unnecessary water utilization add to the exhaustion of freshwater sources. This consumption worsens water shortage, especially in districts previously confronting water pressure because of variables like populace development, urbanization, and environmental change. Wasteful water use prompts expanded contest for restricted water assets among different areas like agribusiness, industry, and families. This opposition can elevate pressures and clashes over water access, especially in regions where water shortage is intense. Inefficient water practices can debase biological systems and mischief biodiversity. Exorbitant water extraction from streams and springs can disturb amphibian territories, lower water tables, and lessen the progression of waterways, influencing both oceanic and earthly environments reliant upon these water sources. Wasteful water system rehearses squander huge measures of water in farming, which is the biggest buyer of freshwater around the world. This wastage decreases the accessibility of water for different purposes and can think twice about security, especially in districts where farming is an essential job. Water squander causes critical monetary costs through lost efficiency, expanded energy utilization for siphoning and treating water, and interests in framework to fulfill developing water need. These costs trouble networks, organizations, and legislatures, especially in districts where monetary assets are restricted. 49 billion liters of water is squandered everyday in the country because of imprudence.

6. Lack of water data

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Without adequate information on water accessibility, use examples, and request, specialists might battle to oversee water assets successfully. This can prompt wasteful distribution of water, worsening deficiencies in certain areas while others might confront pointless excesses. Satisfactory information is fundamental for arranging and creating water foundation like repositories, water system frameworks, and water treatment plants. Without exact data, states and associations might battle to come to informed conclusions about where to contribute assets, prompting deficient framework in regions that need it most. Policymakers depend on information to foster guidelines and arrangements pointed toward tending to water shortage and guaranteeing maintainable water the board. Without thorough information, strategies might be insufficient or even counterproductive, neglecting to address the underlying drivers of water emergencies and compounding existing issues. During seasons of dry spell or other water-related crises, ideal and exact information is urgent for planning crisis reaction endeavors. Without admittance to constant information on water accessibility and utilization, specialists might battle to execute viable measures to moderate the effects of the emergency and give help to impacted networks. Numerous nations don’t have advanced water observing frameworks, which forestalls coordinated water asset the executives that can adjust the requirements of networks and the more extensive economy, especially in season of shortage.

7. Lack of international cooperation on shared water sources

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Numerous streams and springs cross global lines, prompting disagreements about water assignment. Without compelling participation, a few nations might take advantage of water assets to the detriment of others, compounding water shortage in downstream locales. Without a trace of cooperative administration structures, nations may over-siphon groundwater or redirect streams past supportable levels, prompting consumption of water sources and biological system debasement. Shared water bodies frequently support different environments. Without participation, contamination, environment obliteration, and over-extraction can happen, harming biodiversity and subverting the strength of oceanic biological systems. Water shortage and disagreements regarding shared assets can grow into clashes between countries. Such contentions compound human enduring as well as obstruct endeavors to address the fundamental reasons for water shortage. Networks reliant upon shared water hotspots for farming, drinking water, and livelihoods are especially defenseless against the absence of global collaboration. Without evenhanded arrangements, these networks face increased dangers of water weakness and financial insecurity.

8. Lack of infrastructure

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In districts with lacking framework, water dispersion frameworks might be obsolete or deficient. This can prompt lopsided appropriation of water, for certain areas getting lacking inventory while others face wastage because of breaks or wasteful conveyance components. Unfortunate foundation can bring about tainting of water sources. Without legitimate sewage frameworks and water treatment offices, wastewater can saturate drinking water sources, prompting wellbeing risks and waterborne sicknesses. Lacking framework frequently implies restricted limit with respect to water capacity and preservation. Without appropriate supplies or water the executives frameworks, water assets might be squandered during times of overflow and lacking during dry spells or dry seasons. In districts lacking framework, admittance to perfect and safe drinking water turns into a critical test. Networks might depend on risky sources or need to venture out significant distances to get water, especially affecting weak populaces like ladies and kids. Framework assumes a pivotal part in adjusting to environmental change effects, for example, unpredictable precipitation designs or delayed dry spells. Without foundation like water reaping frameworks or proficient water system strategies, networks are more defenseless against the impacts of environment changeability on water accessibility.

9.Forced migration and the refugee crisis

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At the point when enormous quantities of individuals are dislodged from their homes because of struggles or catastrophic events, they frequently get comfortable regions with currently stressed water assets. This convergence of individuals can prompt expanded interest for water, coming down on nearby water supplies. Evacuee camps and settlements frequently need satisfactory framework for giving clean water and disinfection administrations. This stress on foundation can prompt tainting of water sources, as well as wasteful water circulation frameworks, worsening water shortage issues. Much of the time, constrained relocation results from ecological factors like dry seasons, floods, or other cataclysmic events. As individuals are uprooted from their homes, they might depend on impractical practices, for example, over-extraction of groundwater or deforestation, which can additionally corrupt water sources and compound water shortage. Constrained relocation can likewise fuel pressures over water assets in districts currently inclined to struggle. Dislodged populaces might contend with nearby networks for admittance to water, prompting questions and possibly fierce contentions over water privileges.

10. Inequality and an imbalance of power

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In numerous social orders, underestimated or ruined networks frequently need admittance to clean water assets. This is because of various factors like insufficient framework, biased approaches, or monetary incongruities. In the interim, strong elements or prosperous networks might have better admittance to clean water sources, leaving the less favored with polluted or deficient water supplies. Strong partnerships or state run administrations in some cases exploit water assets for their own advantage, disregarding the necessities of neighborhood networks or the climate. This can prompt over-extraction of groundwater, contamination of water bodies, or obliteration of biological systems, further irritating water shortage for weak populaces. Biased appropriation of political influence can bring about strategies that focus on the interests of the well off or persuasive gatherings over the necessities of the more extensive populace. Such strategies might sustain impractical water the executives rehearses or prevent endeavors to actually address water shortage and contamination. While not straightforwardly connected with power lopsided characteristics, the effects of environmental change excessively influence minimized networks who frequently have less assets to adjust. This can fuel water shortage through changes in precipitation designs, expanded recurrence of dry spells or floods, and rising ocean levels, further enlarging the hole between the people who approach water and the individuals who don’t.

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THE 10 GREAT BEST UNIVERSITIES IN THE WORLD IN 2021

University is a high-level educational institution in which students study for degrees and academic research is done. University is an institution of higher learning providing facilities for teaching and research and authorized to grant academic degrees. It is specifically made up of an undergraduate division which confers bachelor’s degrees and a graduate division which comprises a graduate school and professional schools each of which may confer master’s degrees and doctorates. Students can use these rankings to explore the higher education options that exist beyond their own countries’ borders and to compare key aspects of schools’ research missions.

1.Harvard University

Harvard University is devoted to excellence in teaching, learning, and research, and to developing leaders in many disciplines who make a difference globally. Harvard University is a private Ivy League research university in Cambridge, Massachusetts. Founded in 1636, Harvard University is the oldest higher education institution in the U.S. Harvard faculties are engaged with teaching and research to push the boundaries of human knowledge. The University has twelve (12) degree-granting Schools in addition to the Radcliffe Institute for Advanced Study. The university is made up of the undergraduate college, as well as other degree-granting institutions including the highly ranked Business School, Graduate School of Education, Law School and the John F. Kennedy School of Government. For Harvard undergraduates, the most popular majors include social sciences, biology/biological sciences, history, math and psychology.

The University, which is based in Cambridge and Boston, Massachusetts, has an enrollment of over 20,000 degree candidates, including undergraduate, graduate, and professional students. Harvard has more than 360,000 alumni around the world. The University was named Harvard College after deceased clergyman John Harvard, an alumnus of the University of Cambridge who had left the school £779 and his library of some 400 volumes. The charter creating the Harvard Corporation was granted in 1650. Harvard research takes place across a range of disciplines in more than 100 centers. The Harvard Library is the largest academic library in the world, boasting around 19 million volumes at its more than 70 libraries. The bulk of Harvard’s students study at the graduate level and more than 20 percent of the student body is international.

  1. Massachusetts Institute of Technology

Massachusetts Institute of Technology is located in Cambridge, Massachusetts, near Boston. It is a private land-grant research university established in 1861. Founded in response to the increasing industrialization of the United States, MIT adopted a European polytechnic university model and stressed laboratory instruction in applied science and engineering. A charter for the incorporation of the Massachusetts Institute of Technology, proposed by William Barton Rogers, was signed by John Albion Andrew, the governor of Massachusetts, on April 10, 1861. It contains five schools architecture and planning; engineering; humanities, arts, and social sciences; management; and science. There are many opportunities for both undergraduate and graduate students to gain research experience at one of MIT’s many labs or centers, including the MIT Nuclear Reactor Laboratory, one of the largest university research reactors in the U.S.

Nearly 90 percent of MIT undergraduates participate in the school’s Undergraduate Research Opportunities Program, which partners students and faculty for research projects, by the time they graduate. With more than 1,067 Faculty members, MIT continues to play a vital role in shaping the future of undergraduate and graduate students as advisors, mentors, coaches, committee members and much more. In addition, the Institute’s board of trustees include 78 eminent leaders in science, engineering, education, industry, and other professions. Additionally, the faculty members continue to thrive the global standard of excellence in their disciplines. MIT is set in a campus of 168 acres, situated between Central and Kendall Squares, and across the Charles River from Boston’s Back Bay; comprising of 26 acres of playing fields, more than 20 gardens and green spaces, 18 student residences and around 50 publicly cited works of art.

3.Stanford University

Located in the heart of Silicon Valley, Stanford University was founded in 1885 by Jane and Leland Stanford, “to promote the public welfare by exercising an influence in behalf of humanity and civilization. The campus occupies 8,180 acres, among the largest in the United States, and enrolls over 17,000 students. Since opening in 1891, Stanford’s faculty and students have worked to improve the health and wellbeing of people around the world through the discovery and application of knowledge. Breakthroughs at Stanford include the first successful heart-lung transplant, the debut of the computer mouse, and the development of digital music. More than half of the student body studies at the graduate level. Seven schools comprise the university, many of which are highly ranked for graduate-level studies. Three schools consisting of 40 academic departments at the undergraduate level as well as four professional schools. Three of the schools offer both undergraduate and graduate degrees: humanities and sciences; earth sciences; and engineering. The business, law, education and medical schools offer only graduate-level degrees.

Stanford is an international institution, enrolling students from all 50 U.S. states and more than 90 other countries. Around 8 percent of the undergraduate student body is international, as is around 30 percent of the graduate student population. Stanford’s library system, which supports 20 libraries, comprises more than 9.3 million physical volumes. It is also an athletics powerhouse, with 900 current student-athletes and a history of 137 national championships and 23 consecutive Directors’ Cups, awarded to the top intercollegiate athletics program in the nation. In total, companies founded by Stanford affiliates and alumni generate more than $2.7 trillion annual revenue, which would be the 10th largest economy in the world. These companies include Google, Nike, Netflix, Hewlett-Packard, Sun Microsystems, Instagram and Charles Schwab.

4.University of California—Berkeley

The University of California—Berkeley is situated roughly 15 miles from San Francisco in what is known as the Bay Area. The university is divided into 14 colleges and schools, including the highly ranked Haas School of Business, College of Chemistry, College of Engineering, School of Public Health and School of Law. This campus size spread to a sprawling 1,232 acres and follows a semester-based academic calendar. The students have the opportunity to choose among 160 undergraduate programs and more than 350 degree programs. This university enrolls some 31,000 undergraduate and 12,000 graduate students. Some of the most popular majors for Berkeley undergraduates have included electrical engineering and computer science; economics; political science; business administration; and psychology. Roughly 15 percent of the student body is international. A founding member of the Association of American Universities, Berkeley hosts many leading research institutes, including the Mathematical Sciences Research Institute and the Space Sciences Laboratory.

It founded and maintains close relationships with three national laboratories at Berkeley, Livermore and Los Alamos, and has played a prominent role in many scientific advances, from the Manhattan Project and the discovery of 16 chemical elements to breakthroughs in computer science and genomics. Berkeley research is conducted not just within academic department labs and research centers but also in some of the school’s museums and university-managed biological field stations. Berkeley’s athletic teams, which compete as the California Golden Bears primarily in the Pac-12 Conference, have won 107 national championships, and its students and alumni have won 207 Olympic medals (117 gold medals). Berkeley alumni, faculty members, and researchers included 107 Nobel laureates, 25 Turing Award winners, and 14 Fields Medalists. They have also won 20 Academy Awards, 20 Pulitzer Prizes, and 207 Olympic medals and 45 MacArthur Fellowships.

  1. University of Oxford

Oxford has a strong alumni base of more than 350,000 alumni spread across almost every country on the planet. The exact date of the University of Oxford’s founding is unknown, but the school traces its roots back to at least 1096. Oxford is located around 60 miles northwest of London. More than half of Oxford’s graduate students conduct research as part of their studies. Research at Oxford takes place in all four of its academic divisions: humanities; mathematical, physical and life sciences; medical sciences; and social sciences. The University of Oxford is made up of a central university; 38 colleges; and six Permanent Private Halls, which tend to be smaller than colleges and offer fewer subjects. All the colleges are self-governing institutions within the university, each controlling its own membership and with its own internal structure and activities. Oxford currently has a total enrollment of nearly 24,000 students including 11,930 undergraduates and 11,813 postgraduates.

Oxford’s research activity involves more than 70 departments, the colleges, more than 1,800 academic staff, more than 5,500 research and research support staff, and more than 6,100 graduate research students. Morethan 10,000 international students comprising 45% of the total student body takes admission to various programs at University of Oxford. The university provides education in 50 undergraduate programs, more than 350 graduate courses and over 250 postgraduate courses through 45 colleges. In less than a century, Oxford had achieved an important set of learning and won the praises of popes, kings, and sages by virtue of its antiquity, curriculum, a philosophical system, and privileges. Oxford operates the world’s oldest university museum, as well as the largest university press in the world and the largest academic library system nationwide. The university and its academic departments and colleges, as well as dozens of external organizations, have made more than 900 scholarships available for graduate students.

6.Columbia University

Columbia University is a private institution that was founded in 1754. Columbia was established by royal charter from George II of Great Britain in reaction to the founding of Princeton College. It is located in the Upper West Side of New York City’s Manhattan borough. Originally called King’s College, the school received its current name in 1896. Around 30 percent of students at Columbia study at the undergraduate level and almost 30 percent of the total student body is international. Columbia is the oldest institution of higher education in New York and it is ranked among the top universities. The academic structure includes a variety of subjects, namely American Studies, Anthropology, Architecture, Business, Philosophy, and History. Some of the popular and creative subjects are Drama and Theatre Arts, Dance, Film and Media Studies, Music, and Visual Arts. Morethan 400 specialized programs and courses available now. The university is made up of schools that enroll undergraduates – Columbia College, the Fu Foundation School of Engineering and Applied Science, and the School of General Studies – and numerous graduate and professional schools.

Among Columbia University’s highly ranked graduate programs are the Business School, the Law School, and the College of Physicians and Surgeons. Additionally, Columbia is affiliated with Barnard College for women, the Union Theological Seminary and the Jewish Theological Seminary. The highly regarded New York-Presbyterian University Hospital of Columbia and Cornell is a university teaching hospital. Columbia students and faculty conduct research across the sciences, humanities and social sciences disciplines at more than 200 university centers and institutes. Columbia has also established global centers in Amman, Jordan; Beijing; Mumbai, India; Paris; Istanbul; Nairobi, Kenya; Santiago, Chile; and Rio de Janeiro to facilitate study abroad and research opportunities for students. Total number of students 27,384. Columbia scientists and scholars have played an important role in scientific breakthroughs including brain-computer interface; the laser and maser; nuclear magnetic resonance; the first nuclear pile; the first nuclear fission reaction in the Americas; the first evidence for plate tectonics and continental drift; and much of the initial research and planning for the Manhattan Project. With over 14 million volumes, Columbia University Library is the third largest private research library in the United States.

  1. California Institute of Technology

The California Institute of Technology is a world-renowned science and engineering research and education institution, located in Pasadena, California, around 11 miles northeast of downtown Los Angeles. Apart from Pasadena, the institute also has its campuses in Louisiana, Hawaii, Switzerland, and Washington. Spread over 124 acres of land, Caltech has seven buildings that make for student and family residences on the campus. The California Institute of Technology, known as Caltech, was founded in 1891 as Throop University and received its current name in 1920. It is associated with AAU, HHMI, and NASA (JPL). Caltech has six academic divisions, many of which have highly ranked graduate programs: biology and biological engineering; chemistry and chemical engineering; engineering and applied science; geology and planetary sciences; humanities and social sciences; and physics, mathematics and astronomy. There are eight undergraduate houses, each with its own government and special traditions.

Caltech’s campus has five institutes namely Beckman Institute, Kavli Nanoscience Institute, Rosen Bioengineering Center, Tianqiao and Chrissy Chen Institute for Neuroscience, and the Resnick Sustainability Institute. The student-faculty ratio is very low, at 3:1. More than one-fourth of Caltech’s total enrollment is international. There are around 3,900 employees at Caltech including alumni and non-alumni academic faculties. The university staff includes professors who are highly learned and expert in science and applied sciences. Total number of students 2,238. Caltech has around 50 research institutes and centers, such as the Resnick Sustainability Institute and the Tectonics Observatory. Around 80 percent of undergraduates participate in research during their time at Caltech. Additionally, the university operates NASA’s Jet Propulsion Laboratory, a center for robotic exploration of the solar system that engages both faculty and students. The university also maintains several athletic teams in basketball, volleyball, soccer, tennis, swimming, and fencing, for both men and women.

8.University of Washington

The University of Washington is a public institution that was founded in 1861. University of Washington is one of the oldest universities on the West Coast. The university is 703-acre main Seattle campus is in the University District, Puget Sound region of the Pacific Northwest. The school’s oldest and largest campus in terms of enrollment is located in Seattle – the largest city in Washington. In 1990, the university added two smaller campuses in Bothell and Tacoma, Washington. The large university offers more than 370 graduate-level programs. The university has 16 colleges and schools that offer studies in a range of subjects, such as arts and sciences, engineering and social work. Its highly ranked graduate schools include the School of Medicine, School of Nursing and the College of Education. The University of Washington Medical Center, a teaching hospital, is highly ranked in several specialties. The university offers a community-based medical education program that allows students to complete clinical rotations in different states throughout the region – Alaska, Idaho, Montana, Washington and Wyoming.

One goal of the program is to increase the number of primary care physicians, particularly in rural areas. Research awards received by UW have topped $1 billion in recent years, and the school has more than 280 specialized research centers. Among these research centers are the West Coast Poverty Center, the Polar Science Center and the Center for Emerging and Re-emerging Infectious Diseases. Total number of students are 46,258. Washington continues to benefit from its deep historic ties and major collaborations with numerous technology giants in the region, such as Amazon, Boeing, Nintendo, and particularly Microsoft. Paul G. Allen, Bill Gates and others spent significant time at Washington computer labs for a startup venture before founding Microsoft and other ventures. The university has been affiliated with many notable alumni and faculty, including 21 Nobel Prize laureates and numerous Pulitzer Prize winners, Fulbright Scholars, Rhodes Scholars and Marshall Scholars.

  1. University of Cambridge

The University of Cambridge, located around 60 miles north of London, traces its history back to 1209. There are six schools: arts and humanities; biological sciences; clinical medicine; humanities and social sciences; physical sciences; and technology. Dozens of academic departments and other divisions constitute these schools. Cambridge contains 31 residential colleges, which are responsible for admitting undergraduate and graduate students; three colleges – Lucy Cavendish College, Murray Edwards College and Newnham College – are women-only. All the colleges are self-governing institutions within the university, each controlling its own membership and with its own internal structure and activities. Undergraduate teaching at Cambridge centres on weekly small-group supervisions in the colleges in groups of typically 1–4 students. This intensive method of teaching is widely considered the ‘jewel in the crown’ of an Oxbridge undergraduate education.

In addition, lectures, seminars, laboratory work and occasionally further supervisions are provided by the central university faculties and departments. Postgraduate teaching is provided predominantly centrally. Cambridge Assessment, also a department of the university, is one of the world’s leading examining bodies and provides assessment to over eight million learners globally every year. The university is closely linked to the development of the high-tech business cluster known as ‘Silicon Fen’. Cambridge has more than 100 libraries, including college and department libraries. The university has around 140 centers and institutes that contribute to different areas of research, such as the Centre of African Studies; the Cambridge Centre for Economic and Public Policy; and the Institute of Theoretical Geophysics. In a recent year, the university received around $415 million in research grants and contracts. Total number of students are 19,580.

10.Johns Hopkins University

Johns Hopkins University is a private institution that was founded in 1876. The school has campuses located in and around Baltimore and the District of Columbia, as well as in Italy and China. Johns Hopkins is considered the first research university in the United States. In 1900, Johns Hopkins became a founding member of the American Association of Universities. The university comprises nine academic divisions that offer studies in the arts and sciences, engineering, business, education, medicine, nursing, music, public health and international studies. Some of the most popular majors for under graduates are public health studies, international studies and biomedical engineering. Johns Hopkins University’s graduate schools include the highly ranked School of Medicine, School of Nursing and School of Education.

The medical school, nursing school, and Bloomberg School of Public Health, and Johns Hopkins Children’s Center are located on the Medical Institutions campus in East Baltimore. The university also consists of the Peabody Institute, Applied Physics Laboratory, Paul H. Nitze School of Advanced International Studies, School of Education, Carey Business School, and various other facilities. The Johns Hopkins Hospital, a teaching hospital, is highly ranked in many specialties. Undergraduate students can get involved in research with support from initiatives such as the Provost’s Undergraduate Research Awards program, which provides financing for students to design and conduct research with the help of a faculty sponsor. Among the institution’s research facilities is the Johns Hopkins University Applied Physics Laboratory, an affiliated research center that is a hub for national security- and space-related research. Total number of students are 16,432.

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