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