Microscope

 The first microscope to be developed was the optical microscope, although the original inventor is not easy to identify. Evidence points to the first compound microscope appearing in the Netherlands in the late 1590s, probably an invention of eyeglass makers there:^[3] Hans Lippershey (who developed an early telescope) and Zacharias Janssen (also claimed as the inventor of the telescope). There are other claims that the microscope and the telescope were invented byROGER Bacon in the 1200s,^[4] but this is not substantiated. Giovanni Fabercoined the name microscope for Galileo Galilei's compound microscope in 1625 ^[5] (Galileo had called it the "occhiolino" or "little eye"). In 1648 in Amsterdam, van Leeuwenhoek saw a simple microscope, a magnifying glass mounted on a small stand used by textile merchants capable of magnifying to a power of three. He was 14 years old when he soon acquired one for his own use. In 1654 he left Amsterdam and moved back to Delft, and started his own lucrative drapery business there. In 1660 van Leeuwenhoek was appointed chamberlain of the Lord Regents of Delft. It is believed that soon after 1665, he read a book byRobert Hooke, titled Micrographia, which dealt with Hooke's observations with the compound microscope. His reading of Hooke's book is believed to have roused an interest in van Leeuwenhoek to use his microscopes for the purpose of investigating the natural world beyond the mere quality of the fabrics he sold. In 1669, he obtained an academic degree in geography, leading to his later appointment as geographer in 1679.Van Leeuwenhoek's interest in microscopy steadily grew until he was spending most of his nights and free time grinding his own lenses, improving the quality of his microscopes, and studying everything he could beneath them. Although he is sometimes erroneously referred to as "the inventor of the microscope," compound microscopes (with two lenses mounted together) had existed since 1595. However, they were very crude because the technology used made it difficult to build them properly. Van Leeuwenhoek's genius was developing his skill to grind single lenses very precisely. It is likely that his microscopes were powerful magnifying glasses, not compound microscopes.Van Leeuwenhoek also carefully documented many of his observations. He soon developed what is believed to have been the highest-powered microscopes of his day, magnifying up to 500 times. He retained some of his methods of microscope construction in secret, “which I only keep for myself.” While scientists agree that many of his observations would have required a 500-power microscope, exactly how he constructed such a microscope remains unknown. Van Leeuwenhoek's microscopes were small, generally only about two inches long and one inch across. The microscope held at the Utrecht museum has a magnification factor of about 275x with a resolution of about one micron.

Source: http://www.newworldencyclopedia.org/entry/Anton_van_Leeuwenhoek

Microwave Oven

           This common kitchen appliance was discovered by accident. Working at Raytheon, Percy Spencer noticed a peanut chocolate bar he had in his pocket started to melt while he was working on an active radar set. It was the microwaves from the radar, not pocket pool,that caused the gooey mess. He then deliberately cooked popcorn, then an egg. Spencer then isolated the microwaves by feeding them into a metal box, rapidly heating the food placed in it. After Raytheon filed a U.S. patent it had the first microwave oven built in 1947. It was 6 feet (1.8m) tall, weighed 750 lbs (340 kg) cost about $5,000.00, and consumed 3000 watts (compared today's standard 1000 watt) Thankfully, today they are a tad smaller and a wee bit more economical. Because of the microwave, ordinary non-scientific types can now generate the heat of the sun's core with the apple cobbler in a Swanson's TV dinner.

Source: http://gilbertm.hubpages.com/hub/inventions20century

Radar

     The first practical radar system was invented in 1935 by the Scotish physicist Sir Robert Alexander Watson-Watt (April 13, 1892-December 5, 1973). He developed radar to help track storms in order to keep aircraft safe. His invention eventually helped the allies win World War 2 against the Germans.

Radar is short for RAdio Detection And Ranging. Radar is used to locate distant objects by sending out radio waves and analyzing the echos that return. Radar can determine where a distant object is, how big it is, what shape it has, how fast it's moving and in which direction it's going. Radar is now used to watch developing weather patterns, to monitor air traffic, to track ships at sea, and to detect missiles.

Source: http://www.enchantedlearning.com/inventors/1900a.shtml

Mechanical Pencil

          The mechanical pencil was invented in 1915 by Tokuji Hayakawa (November 3, 1894-June 24, 1980). His first mechanical pencil was called the "Ever-Ready Sharp Pencil." Hayakawa had owned a metalworking shop in Tokyo, Japan, and in 1942, expanded his company and renamed it the Hayakawa Electric Industry Co.,Ltd. It was later called the Sharp Corporation (1970), and Hayakawa was appointed chairman.

Source: http://www.enchantedlearning.com/inventors/1900a.shtml

Tungsten-filament Lamp

 Another success of chemistry. After tungsten replaced carbon in its filament, the lightbulb was considered “perfected.” As of 2013 they are being phased out worldwide in favor of compact fluorescent bulbs, which are four times as efficient.

Source: http://www.scientificamerican.com/article/inventions-what-are-the-10-greatest-of-our-time/?page=2

Linotype Machine

  The Linotype machine enabled publishers—largely newspapers—to compose text and print it much faster and cheaper. It was an advance as large as the invention of the printing press itself was over the painstaking handwritten scrolls before it. Pretty soon we won’t be using paper for writing and reading, so the history of printing will be forgotten anyway.

Source: https://www.google.com.ph/search?newwindow=1&biw=1366&bih=623&tbm=isch&sa=1&q=Linotype+machine&oq=Linotype+machine&gs_l=img.12..0l4j0i24l6.86427.86427.0.87417.1.1.0.0.0.0.592.592.5-1.1.0....0...1c.2.64.img..0.1.591.EAceEY7rzHI#imgrc=3DOIgw3PnEDEPM%253A%3BxVS3LMA9tD0HeM%3Bhttps%253A%252F%252Fupload.wikimedia.org%252Fwikipedia%252Fcommons%252F9%252F94%252FLinotype_machine.jpg%3Bhttps%253A%252F%252Fcommons.wikimedia.org%252Fwiki%252FFile%253ALinotype_machine.jpg%3B2736%3B3648

Elekta Axesse

 Elekta Axesse is one of the contemporary devices used today to treat cancer. This invention was created to treat a large number of targets throughout human body, including tumors located in the spine, lung, prostate, and liver.The device delivers a complete mix of vital tools. It can help carry out stereotactic radiosurgery (SRS), stereotactic radiation therapy (SRT), stereotactic body radiation therapy(SBRT) and radiosurgery (SBRS). During the treatment doctors have the possibility to observe a 3D image of the location that is to be treated. In addition, they obtain an ultra-conformal beam shaping, a comfortable patient positioning system, advanced treatment planning and more.

Source: http://www.infoniac.com/health-fitness/top-10-most-important-inventions-of-the-21st-century-in-medicine.html

iLIMB Bionic Hand

   Invented by David Gow in 2007, the device, known as the iLIMB, became the world's first artificial hand to boast 5 individually powered fingers. Thus people who use the invention are able to grip objects of different shapes, for example coffee mug handles.To develop the iLIMB, Gow had to overcome a large number of obstacles. He built the iLIMB with 3 separate parts: the finger, thumb and palm, with each part featuring its own motor-control system.It would be interesting to note that the iLIMB was named by the "Popular Science" magazine one of the best innovations. 

Source: http://www.infoniac.com/health-fitness/top-10-most-important-inventions-of-the-21st-century-in-medicine.html

Camera Pill

  With the invention of this camera pill it became possible to spot the earliest signs of caner.

The device was developed with the goal of taking quality, color images in confined spaces.

It can detect early signs of esophageal cancer, which is the fastest growing type of cancer in the United States.According to Eric Seibel, the lead researcher at the University of Washington, the pill has a width of an adult fingernail and is twice as long.Using the new scanning device is rather cheap due to the fact that it is small and there is no need of anesthesia and sedation. More information about the pill can be found.

Source: http://www.infoniac.com/health-fitness/top-10-most-important-inventions-of-the-21st-century-in-medicine.html

Bluetooth technology

  The Bluetooth technology was introduced to the market first in 2002. It was dubbed the first low energy peer to peer wireless technology, and was developed by a consortium of electronics manufactures, with the aim of connecting several digital devices over short distances.  The concept was first born in an Ericsson lab in Sweden in the 1990’s and went on to revolutionize wireless connection.

The beauty of the technology when it was just launched was that for the first time it has connected devices from different industries, introduced new possibilities for device development and changed consumers behaviors.

The first devices to hit the market were Bluetooth earpieces used to connect with our cell phones. Today, the technology dominates almost any consumer electronic device, fitness and sports devices, and others in the fields of smart homes, cars, medical and health.

A recent research report predicted 2 billion Bluetooth enabled unites will be shipped in 2013 alone.

Source: http://beforeitsnews.com/alternative/2014/09/top-10-important-inventions-of-21st-century-3024322.html

LED bulbs

The light bulb hasn't changed very much since it was patented by Briton Joseph Swan in 1878, one year before the somewhat better-known Thomas Edison laid claim to it. Flip a switch, it will give you light. It is fragile and - fzzzt - it doesn't last very long.

But electronic LEDs - light-emitting diodes - are set to change that, with a low-power, long-life alternative just a few years away. Previously only available in red, yellow or green, the first white LED was developed in the early 1990s, and, since then, its use has spread in flashlights and miners-style headbands. White LEDs light up almost instantly and, given their solid construction, can take much more of a knock than traditional bulbs.

As with other electronic devices, the cost of LEDs is falling. Their use in homes is sparse so far, but a US Department of Energy report found that converting to LED lighting would reduce the country's energy consumption by 29 per cent by 2025, cutting energy bills by $125bn and reduce carbon emissions.

The real problem so far has been their unnerving blue-white colour, a side-effect of the chemical used in their manufacture. That has now been solved to give a warm, yellow light from a device that will last for decades, never break and slash your power bill. Mark White

Source:http://www.independent.co.uk/news/science/50-great-ideas-for-the-21st-century-410543.html

Apple Ipad (2010)

Apple did it again in 2010 with the launch of its tablet PC, the iPad. It was by no means the first device of its kind, but it succeeded in capturing the public's imagination, and kickstarted a new trend. It has remained the single most popular tablet PC ever since, but Android overtook Apple iOS to become the number one tablet operating system in terms of user numbers earlier this year, thanks to a wide variety of cheap alternatives.

Source: http://www.telegraph.co.uk/technology/picture-galleries/11298840/Most-important-inventions-of-the-21st-Century-in-pictures.html

Apple Iphone (2007)

Apple's iPhone was the first touchscreen smartphone to gain mass-market adoption. Part of the reason for its appeal was the fact that it could be controlled using a finger rather than requiring a stylus. The iPhone went on to spawn an entire industry, with electronics manufacturers all over the world developing their own versions of the device. Apple has now sold over 500 million iPhones globally.

Source: http://www.telegraph.co.uk/technology/picture-galleries/11298840/Most-important-inventions-of-the-21st-Century-in-pictures.html

Apple Ipod (2001)

Portable MP3 players had been around for many years before Apple launched its version in 2001, but the iPod – together with Apple's iTunes software – was the technology that really transformed the way people listened to music. The device's large internal storage capacity meant it was no longer necessary to carry around CDs or cassette tapes, and the sleek design made it a desirable item to own.

Source: http://www.telegraph.co.uk/technology/picture-galleries/11298840/Most-important-inventions-of-the-21st-Century-in-pictures.html

Nintendo Wii

Amid fierce rivalry in the game console industry between Sony's Playstation and Microsoft's Xbox during the early 2000s, Nintendo went off-piste and created a console that allowed gamers to get physically involved in the virtual games they were playing. The Wii controller detects movement in three dimensions, and can be used as a fitness device. It went on to inspire a number of other motion controllers including Microsoft's Kinect. 

Source: http://www.telegraph.co.uk/technology/picture-galleries/11298840/Most-important-inventions-of-the-21st-Century-in-pictures.html

Radar

Introduced in the 1930s as a system to detect aircraft and surface vessels from far away or in poor weather conditions, radar ("radio detecting and ranging") helped the Allies win World War II. Today, it is one of the greatest contributors to air safety. By bouncing radio waves off moving vessels, ground stations can detect the position of objects in the sky or on the ground. An ingenious spin-off was "stealth technology," which makes objects impervious to radar signals. Modern fighter jets are coated with a material that absorbs radar signals, making the plane "invisible" to radar screens.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Magnetic Tape

Originally designed as an adhesive, magnetic tape first recorded sound in the 1920s and led ultimately to numerous popular appliances. The reel-to-reel recorder was born in the 1950s, leading to audio cassettes and portable cassette players such as the ubiquitous Sony Walkman, an instant smash after its 1979 debut. Images can also be recorded on magnetic tape, whose legacy includes the handycam and VCR.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Air Conditioner

Sticky, hot weather became more manageable after Willis Carrier's invention of the air conditioner in 1902. By compressing fluid to produce a cooling effect (a 19th century discovery), new air conditioners allowed workers to labor in greater comfort and kept homes cool. By the 1950s, air conditioners provided relief in cars and trucks. But all this comfort has come at a cost: The Earth's ozone layer has thinned due to the chlorofluorocarbon gases used until recently in refrigerators and air conditioners.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Automatic Teller Machines (ATMs)

You can get a Coke from a machine, so why not cash? Automatic Teller Machines (ATMs), which made their debut in 1969, allow us to make cash withdrawals and deposits day or night. Of course, the technological importance of the ATM is what lies behind it — networking technology. The integration and cross-communication of computers has become an integral part of the computer age and the global economy where, in the blink of an eye, gargantuan sums can be transferred halfway around the world.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Plastics

In 1908, Belgian inventor Leo Baekeland created Bakelite, the first plastic, by combining phenols and formaldehyde; it was used originally as an alternative to ivory billiard balls. Light, durable and colorful, plastic today feeds a $260 billion industry, used in a seemingly endless array of products from phones to keyboards, credit cards to Tupperware. Plastic spin-offs include neoprene, Plexiglas, nylon, Teflon and bulletproof kevlar.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Atomic Bomb

Albert Einstein's theory of relativity and the discovery of how to split the atom came to horrifying fruition in 1945 with the atomic bombings of Hiroshima and Nagasaki. While the face of modern warfare was forever recast, atomic science also led to an alternative, albeit controversial, method to produce energy: fission. Nuclear fission is now used to generate electricity and power submarines and aircraft carriers.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Fiber Optic

Fiber optic technology, which passes light through narrow glass tubing, transmits sound, data and images with astonishing clarity and speed. Developed first in the 1950s, fiber optic cable has replaced copper wire in many long-distance telephone lines and is frequently used to network computers. While fiber optic technology has yet to fulfill its potential, our telecommunications infrastructure will increasingly be based on fiber optic technology. Additionally, fiber optics have spawned medical advances. Now in wide use are endoscopes, devices fitted with optical fibers that can examine the inside of the body and transmit images onto a video monitor. Endoscopes have virtually replaced the scalpel, allowing noninvasive surgery that reduces infection while enabling speedier postsurgical recoveries.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Xenography

The technology behind photocopying and the birth of Xerox is known as electrostatics — exposing light onto a charged metal plate, dusting the plate with a powder that picks up an image, and then transferring the image to paper electrostatically. Got that? The process was developed in 1938 by Chester Carlson, an employee at a New York electronics firm who was frustrated by the difficulty of copying documents. In 1947, the Haloid Company (later named Xerox) bought the rights to Carlson's xerography process, and 11 years later, the first Xerox office copier was born, becoming standard equipment in offices worldwide.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Electric Refrigeration

With the development of the electric refrigerator in the 1920s, the icebox became a thing of the past. By pumping a special fluid that vaporizes at low temperatures through a system of pipes, the "fridge" became an indispensable household item that could store foods safely for longer periods. Today, fewer than 1 percent of American homes are without one.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Smart Bullet

  Smart bullets use microchip technology to detonate a round beyond an obstruction. By using the weapons range finder, the number of bullet rotations is calculated to determine the distance to the target. Soldiers in urban situations can use these smart bullets to reduce collateral damage while terminating enemies that are hiding behind obstructions.

Source: http://www.brighthub.com/office/entrepreneurs/articles/86314.aspx

Youtube

  YouTube was debuted in 2005 and had a significant impact on media distribution and social networking. Using Adobe Flash Video technology, the website provides a forum for displaying videos from an endless variety of sources including businesses, consumer groups, and individuals seeking media exposure for themselves, their products, or their causes

Source: http://www.brighthub.com/office/entrepreneurs/articles/86314.aspx

Automation

  Predictions say that by the end of the 21st century, your house, car, refrigerator and anything else you can think of, will be smarter than you and will be capable of carrying out nearly any task you might have in mind. This invention is walking hand in hand with the previous one. Let’s hope humans will be capable to have the last word, all throughout this huge technological advances.

Source: https://www.toplst.com/the-10-top-inventions-of-the-20th-and-21st-centuries/

Laser

Laser technology (Light Amplification by Stimulated Emission of Radiation) was invented in 1960 by American physicist Theodore H. Maiman. Generated from solid crystals, liquids or gases, laser beams now permeate our daily lives. In the medical field, lasers have replaced the scalpel in certain types of surgery. Supermarket scanners use them to read bar codes, while CD players wouldn't work without them. Lasers have also changed the face of modern warfare; laser-guided missiles and bombs represent the most accurate means of targeting, thus making warfare more efficient and preventing loss of innocent life.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Hydrogen Powered Cars

  It is hard to imagine that cars as we know them will be out of use anytime soon; however they will soon be overcome by electrical cars & hybrids. If so, it will completely change the statistics of planet Earth pollution. Advantage: use hydrogen in the combustion chamber and leave only water vapor. Disadvantage: Might be very costly for day-to-day use.

Source: https://www.toplst.com/the-10-top-inventions-of-the-20th-and-21st-centuries/

Artificial Intelligence

  It is one thing to make a robot do a daily chore around the house, it is a quite another to get it to think about what is the best way to carry out that task. Artificial intelligence will enable machines to be able to learn, plan, decide, compare among other things.

Source: https://www.toplst.com/the-10-top-inventions-of-the-20th-and-21st-centuries/

Hypersonic Transportation

  The way we travel by aircraft has completely changed in the current century. This is mainly to do with the outstanding developments that have occurred in the area of hypersonic transportation. We have at our disposal planes and trains that almost equal the speed of light. With proper development of the technology it is not far away when we will seriously be able to travel all the countries of the world in just 80 days, like Willy Fogg!

Source: https://www.toplst.com/the-10-top-inventions-of-the-20th-and-21st-centuries/

Transistor

The transistor gave birth to the digital age. Without it, we wouldn't have the personal computer, the CD player, the fax machine and countless other devices. Developed in 1947, the transistor replaced hot, bulky vacuum tubes, and was the precursor of the now ubiquitous semiconductors and silicon chips embedded in the compact appliances we commonly use. By 1958 the first integrated circuit — a cluster of transistors on a single silicon chip — was created, heralding the age of modern computing.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

Nanotechnology

Undoubtedly this is the most fascinating advent in the field of technology. It deals with the extremely small microscopic particles which are so fine that they can be injected into the system and repairs can be done to the human organs. We are not there yet but the prospects for it are great.

Source: https://www.toplst.com/the-10-top-inventions-of-the-20th-and-21st-centuries/

The Internet

  The computer rendered the typewriter obsolete and made writing in long-hand a thing of the past, but it took the internet to truly turn the computer into the monster it is today. While the airplane shrank our planet to the point that one could fly from New York to London in six hours, the internet made it possible to be there in a few seconds. It allows truth to make it into and out of repressive countries, it foments revolutions, and spreads lies at the speed of light. It also gives anyone the ability to buy and sell almost anything imaginable, find and torment old school mates, watch the latest you-tube videos, and even find their perfect life partner, all for a few bucks a month. Oh, and you can also get useful information off it if you don’t mind scrolling through 15,000 hits to find out just how long snails really live. Where would we be without it?

Source: http://www.toptenz.net/top-10-inventions-of-the-20th-century.php

Television

  Yes, I know it destroys brain cells and renders people emotionally and psychologically damaged, but really, where would we be without the boob tube? It is society’s baby-sitter, news source, teacher, entertainer, and story-teller. When in competent hands, television can even be useful at times. Mostly, though, it fills our days with vapidity and all manner of inane and obnoxious commercials, and is the single greatest reason that families no longer eat in the kitchen or dining room anymore, but instead huddle in the living room around their television eating microwavable food and spilling soft drinks on the sofa. Still, even while we pretend we hate it, we can’t help but seeing what’s on tonight. Worse, most of us would have no idea what to do with our time without it, which is probably the saddest commentary of all.

Source: http://www.toptenz.net/top-10-inventions-of-the-20th-century.php

Antibiotics

  Until Alexander Fleming discovered penicillin in 1928, almost any little bug that someone picked up was potentially fatal. Once penicillin—and later a whole range of other antibiotics—came on the scene, however, death due to bacterial infection became rare, resulting in a greatly reduced mortality rate and much longer life-span. It also rendered many scourges of the past—from small pox and typhoid to gonorrhea and syphilis—obsolete or, at least in the case of venereal disease, something easily treatable.

Source: http://www.toptenz.net/top-10-inventions-of-the-20th-century.php

Radio

Although its technology existed before the turn of the century, the radio didn't take off as a communications medium until the 1920s, giving rise to live news and entertainment programs. The radio would prove to be a galvanizing force during World War II, and it continues today to play a vital role in disseminating information. New portable, battery-less radios that operate by cranking a small handle on the side to generate electricity allow anyone in the world to listen in, helping make the radio probably the most accessible communications device on the planet.

Source: http://content.time.com/time/photogallery/0,29307,2026224,00.html

The Submarine

  Though submersible vessels had been used in the past (the CSS Hunley during the Civil War) and the first true submarine was invented in the 1880’s, it wasn’t until the twentieth century that the modern submarine came into its own. What started as an irritating, but still deadly, weapon in World War One grew into a monstrosity in World War Two- sinking more than any other type of weapon used. Today, with the advent of nuclear power—which gave the submarine nearly unlimited range and endurance—it has become the capital warship in every first-class Navy in the world and as such has effectively rendered naval warfare of the past obsolete. How effective is the modern submarine? Ask anyone who has ever served on one. They’ll tell you there’s only two types of ships in the world: submarines and targets. ‘Nuff said.

Source: http://www.toptenz.net/top-10-inventions-of-the-20th-century.php

Rocketry

  While the rocket was first invented and used by the Chinese over three thousand years ago—and used occasionally by the Greeks and Romans since —it wasn’t until the twentieth century that it came into its own and became more than just a dazzling amusement or a largely harmless but still effective “terror weapon” for ancient armies. In the twentieth century, rockets became bigger and more powerful. Most importantly, they became controllable, which suddenly made them useful both as weapons of war and, even more vitally, as our means of accessing outer space. Without the rocket, it is safe to say we would not only have never gone to the moon or visited every planet in our

solar

 system. Rockets also place satellites into orbit around our planet, so without them we also wouldn’t be able to use GPS, predict the weather, make international calls or, for the most part, even use our cell phones much of the time.

Source: http://www.toptenz.net/top-10-inventions-of-the-20th-century.php