Rabit Hutch Designs Advice!!!!

Rabbit Hutch Designs Advice
	Rabbits are lovable creatures that even don't require much care and attention as the pet cats and dogs and this is the reason that many young kids love the idea of a pet rabbit. Plus rabbits can easily adapt to different environments without much fuss and this the reason that they can live in an indoor rabbit hutch. You should be careful in choosing a comfortable hutch for your rabbit as the rabbit hutch designs surely effect the safety and comfort level of these pet rabbits. And to keep the rabbits save and secure you need to plan rabbit hutch designs in the way that is convenient for you and your rabbit. Rabbit hutch designs can be planned in a simple way and it is important that you access the rabbit hutch designs in terms of comfort and convenience before you start to but or build them up. So make sure that you have studied the minutest detail before you start building and designing the rabbit hutches. Rabbit hutch designs should be drafted beforehand as you should concentrate on the size and the growth of your rabbit. Though you don't have to decorate the rabbit hutch flamboyantly but you certainly need to consider the size and growth rate of your pet when you plan your rabbit hutch designs. Roomy, warm and safer is what your rabbit hutch designs should be and you should use wire cloth for the flooring of the hutch so that your rabbit can walk and sit in comfort. Rabbit hutch designs can be made of wood, metal and plastic as it all depends on your specifications. People prefer to build up metal rabbit hutches as they find that they are more superior and durable as compared to the wooden and plastic ones as they are more easier to clean. The flouring of the rabbit hutch should be covered with a soft mat of grass as walking on a wire mesh is very painful for your rabbit. And to construct the frame of the rabbit hutch designs you need to lay out the pieces for the frame. Rabbit hutch designs should also be planned to make cleaning easy as clean and hygienic conditions have a positive effect on the health of your pet rabbit and also makes the rabbit hutches durable enough to last in the long run. You should clean up the indoor rabbit hutches more frequently as compared to the outdoor ones as the smell of urine may persist for a longer time in the house. You should start to brush of your rabbit's hutches off any accumulated waste, fallen leaves and twigs as they can also trap moisture and dirt over time. Rabbit hutch deigns should be planned in such away that cleaning them becomes easy. Plus the best thing to do is build a rabbit hutch design that is customized so that it turns out perfectly the way you want it to be.

Nikola Tesla The Great Scientist

NIKOLA TESLA

THE GENIUS WHO LIT THE WORLD
Nikola Tesla symbolizes a unifying force and inspiration for all nations in the name of peace and science. He was a true visionary far ahead of his contemporaries in the field of scientific development.  New York State and many other states in the USA proclaimed July 10, Tesla’s birthday- Nikola Tesla Day.

Many United States Congressmen gave speeches in the House of Representatives on July 10, 1990 celebrating the 134th anniversary of scientist-inventor Nikola Tesla. Senator Levine from Michigan spoke in the US Senate on the same occasion.

            The street sign “Nikola Tesla Corner” was recently placed on the corner of the 40th Street and 6th Avenue in Manhattan. There is a large photo of Tesla in the Statue of Liberty Museum. The Liberty Science Center in Jersey City, New Jersey has a daily science demonstration of the Tesla Coil creating a million volts of electricity before the spectators eyes. Many books were written about Tesla : Prodigal Genius: The Life of Nikola Tesla by John J. O’Neill  and Margaret Cheney’s book Tesla: Man out of Time has contributed significantly to his fame. A documentary film Nikola Tesla, The Genius Who Lit the World, produced by the Tesla Memorial Society and the Nikola Tesla Museum in Belgrade, The Secret of Nikola Tesla (Orson Welles), BBC Film Masters of the Ionosphere are other tributes to the great genius.

            Nikola Tesla was born on July 10, 1856 in Smiljan, Lika, which was then part of  the Austo-Hungarian Empire, region of Croatia. His father, Milutin Tesla was a Serbian Orthodox Priest and his mother Djuka Mandic was an inventor in her own right of household appliances. Tesla studied at the Realschule, Karlstadt in 1873, the Polytechnic Institute in Graz, Austria and the University of Prague. At first, he intended to specialize in physics and mathematics, but soon he became fascinated with electricity. He began his career as an electrical engineer with a telephone company in Budapest in 1881. It was there, as Tesla was walking with a friend through the city park that the elusive solution to the rotating magnetic field flashed through his mind. With a stick, he drew a diagram in the sand explaining to his friend the principle of the induction motor. Before going to America, Tesla joined Continental Edison Company in Paris where he designed dynamos. While in Strassbourg in 1883, he privately built a prototype of the induction motor and ran it successfully. Unable to interest anyone in Europe in promoting this radical device, Tesla accepted an offer to work for Thomas Edison in New York. His childhood dream was to come to America to harness the power of Niagara Falls.

            Young Nikola Tesla came to the United States in 1884 with an introduction letter from Charles Batchelor to Thomas Edison: “I know two great men,” wrote Batchelor, “one is you and the other is this young man.” Tesla spent the next 59 years of his productive life living in New York. Tesla set about improving Edison’s line of dynamos while working in Edison’s lab in New Jersey.  It was here that his divergence of opinion with Edison over direct current versus alternating current began. This disagreement climaxed in the war of the currents as Edison fought a losing battle to protect his investment in direct current equipment and facilities.

            Tesla pointed out the inefficiency of Edison’s direct current electrical powerhouses  that have been build up and down the Atlantic seaboard. The secret, he felt, lay in the use of alternating current ,because to him all energies were cyclic. Why not build generators that would send  electrical energy along distribution lines  first one way, than another, in multiple waves using the polyphase principle?

            Edison’s lamps were weak and inefficient  when supplied by direct current. This system had a severe disadvantage in that it could not be transported more than two miles due to its inability to step up to high voltage levels necessary for long distance transmission. Consequently, a direct current power station was required at two mile intervals.

            Direct current flows continuously in one direction; alternating current changes direction 50 or 60 times per second and can be stepped up to vary high voltage levels, minimizing power loss across great distances. The future belongs to alternating current.

            Nikola Tesla developed polyphase alternating current system of generators, motors and transformers and held 40 basic U.S. patents on the system, which George Westinghouse bought, determined to supply America with the Tesla system. Edison did not want to lose his DC empire, and a bitter war ensued. This was the war of the currents between AC and DC. Tesla -Westinghouse ultimately emerged the victor because AC was a superior technology. It was a war won for the progress  of both America and the world.

            Tesla introduced his motors and electrical systems in a classic paper, “A New System of Alternating Current Motors and Transformers” which he delivered before the American Institute of Electrical Engineers in 1888. One of the most impressed was the industrialist and inventor George Westinghouse. One day he visited Tesla’s laboratory and was amazed at what he saw. Tesla had constructed a model polyphase system consisting of an alternating current dynamo, step-up and step-down transformers and A.C. motor at the other end. The perfect partnership between Tesla and Westinghouse for the nationwide use of electricity in America had begun.

In February 1882, Tesla discovered the rotating magnetic field, a fundamental principle in physics and the basis of nearly all devices that use alternating current.  Tesla brilliantly adapted the principle of rotating magnetic field for the construction of alternating current induction motor and the polyphase system for the generation, transmission, distribution and use of electrical power.

            Tesla’s A.C. induction motor is widely used throughout the world in industry

and household appliances. It started the industrial revolution at the turn of the

century. Electricity today is generated transmitted and converted to mechanical

power by means of his inventions. Tesla’s greatest achievement is his polyphase

alternating current system, which is today lighting the entire globe.

            Tesla astonished the world by demonstrating. the wonders of alternating current electricity at the World Columbian Exposition in Chicago in 1893. Alternating current became standard power in the 20th Century.  This accomplishment changed the world. He designed the first hydroelectric powerplant in Niagara Falls in 1895, which was the final victory of alternating current.  The achievement was covered widely in the world press, and Tesla was praised as a hero world wide.  King Nikola of Montenegro conferred upon him the Order of Danilo.

Tesla was a pioneer in many fields.  The Tesla coil, which he invented in 1891, is widely used today in radio and television sets and other electronic equipment.  That year also marked the date of Tesla's United States citizenship.  His alternating current induction motor is considered one of the ten greatest discoveries of all time.  Among his discoveries are the fluorescent light , laser beam, wireless communications, wireless transmission of electrical energy, remote control, robotics, Tesla’s turbines and vertical take off aircraft. Tesla is the father of the radio and the modern electrical transmissions systems. He registered over 700 patents worldwide. His vision included exploration of solar energy and the power of the sea. He foresaw interplanetary communications and satellites.

            The Century Magazine published Tesla's principles of telegraphy without wires, popularizing scientific lectures given before Franklin Institute in February 1893.

The Electrical Review in 1896 published X-rays of a man, made by Tesla, with X-ray tubes of his own design.  They appeared at the same time as when Roentgen announced his discovery of X-rays.  Tesla never attempted to proclaim priority.  Roentgen congratulated Tesla on his sophisticated X-ray pictures, and  Tesla even wrote Roentgen's name on one of his films.  He experimented with shadowgraphs similar to those that later were to be used by Wilhelm Rontgen when he discovered X-rays in 1895.  Tesla's countless experiments included work on a carbon button lamp, on the power of electrical resonance, and on various types of lightning.  Tesla invented the special vacuum tube which emitted light to be used in photography.

The breadth of his inventions is demonstrated by his patents for a bladeless steam turbine based on a spiral flow principle.  Tesla also patented a pump design to operate at extremely high temperature.

Nikola Tesla patented the basic system of radio in 1896.  His published schematic diagrams describing all the basic elements of the radio transmitter which was later used by Marconi.

In 1896 Tesla constructed an instrument to receive radio waves.  He experimented with this device and transmitted radio waves from his laboratory on South 5th Avenue. to the Gerlach Hotel at 27th Street in Manhattan.  The device had a magnet which gave off intense magnetic fields up to 20,000 lines per centimeter.  The radio device clearly establishes his piority in the discovery of radio.

The shipboard quench-spark transmitter produced by the Lowenstein Radio Company and licensed under Nikola Tesla Company patents, was installed on the U.S. Naval vessels prior to World War I.

In December 1901, Marconi established wireless communication between Britain and the Newfoundland, Canada, earning him the Nobel prize in 1909.  But much of Marconi's work was not original.  In 1864, James Maxwell theorized electromagnetic waves.  In 1887, Heinrich Hertz proved Maxwell's theories.  Later, Sir Oliver Logde extended the Hertz prototype system.  The Brandley coherer increased the distance messages could be transmitted.  The coherer was perfected by Marconi.

However, the heart of radio transmission is based upon four tuned circuits for transmitting and receiving.  It is Tesla's original concept demonstrated in his famous lecture at the Franklin Institute in Philadelphia in 1893.  The four circuits, used in two pairs, are still a fundamental part of all radio and television equipment.

The United States Supreme Court, in 1943 held Marconi's most important patent invalid, recognizing Tesla's more significant contribution as the inventor of radio technology.

Tesla built an experimental station in Colorado Springs, Colorado in 1899, to experiment with high voltage, high frequency electricity and other phenomena.

When the Colorado Springs Tesla Coil magnifying transmitter was energized,  it created sparks 30 feet long.  From the outside antenna, these sparks could be seen from a distance of ten miles.  From this laboratory, Tesla generated and sent out wireless waves which mediated energy, without wires for miles.

 In Colorado Springs, where he stayed from May 1899 until 1900, Tesla made what he regarded as his most important discovery-- terrestrial stationary waves.  By this discovery he proved that the Earth could be used as a conductor and would be as responsive as a tuning fork to electrical vibrations of a certain frequency.  He also lighted 200 lamps without wires from a distance of 25 miles( 40 kilometers) and created man-made lightning.  At one time he was certain he had received signals from another planet in his Colorado laboratory, a claim that was met with disbelief in some scientific journals.

The old Waldorf Astoria was the residence of Nikola Tesla for many years.  He lived there when he was at the height of financial and intellectual power.  Tesla  organized elaborate dinners, inviting famous people who later witnessed spectacular electrical experiments in his laboratory.

Financially supported by J. Pierpont Morgan, Tesla built the Wardenclyffe laboratory and its famous transmitting tower in Shoreham, Long Island between 1901 and 1905. This huge landmark was 187 feet high, capped by a 68-foot copper dome which housed the magnifying transmitter.  It was planned to be the first broadcast system, transmitting both signals and power without wires to any point on the globe.  The huge magnifying transmitter, discharging high frequency electricity, would turn the earth into a gigantic dynamo which would project its electricity in unlimited amounts anywhere in the world.

Tesla's concept of wireless electricity was used to power ocean liners, destroy warships, run industry and transportation and send communications instantaneously all over the globe.  To stimulate the public's imagination, Tesla suggested that this wireless power could even be used for interplanetary communication.  If Tesla were confident to reach Mars, how much less difficult to reach Paris.  Many newspapers and periodicals interviewed Tesla and described his new system for supplying wireless power to run all of the earth's industry.

Because of a dispute between Morgan and Tesla as to the final use of the tower.  Morgan withdrew his funds.  The financier's classic comment was, "If anyone can draw on the power, where do we put the meter?"

The erected, but incomplete tower was demolished in 1917 for wartime security reasons.  The site where the Wardenclyffe tower stood still exists with its 100 feet deep foundation still intact.  Tesla's laboratory designed by Stanford White in 1901 is today still in good condition and is graced with a bicentennial plaque.

Tesla lectured to the scientific community on his inventions in New York, Philadelphia and St. Louis and before scientific organizations in both England and France in 1892. Tesla’s lectures and writings of the 1890s aroused wide admiration among contemporaries popularized his inventions and inspired untold numbers of younger men to enter the new field of radio and electrical science.

            Nikola Tesla was one of the most celebrated personalities in the American press, in this century.  According to Life Magazine's special issue of September, 1997, Tesla is among the 100 most famous people of the last 1,000 years.  He is one of the great men who divert the stream of human history.  Tesla's celebrity was in its height at the turn of the century.  His discoveries, inventions and vision had widespread acceptance by the public, the scientific community and American press.  Tesla's discoveries had extensive coverage in the scientific journals, the daily and weekly press as well as in the foremost literary and intellectual publications of the day.  He was the Super Star.

Tesla wrote many autobiographical articles for the prominent journal Electrical Experimenter, collected in the book, My Inventions.  Tesla was gifted with intense powers of visualization and exceptional memory from early youth on.  He was able to fully construct, develop and perfect his inventions completely in his mind before committing them to paper.

According to Hugo Gernsback, Tesla was possessed of a striking physical appearance over six feet tall with deep set eyes and a stately manner.  His impressions of Tesla, were of a man endowed with remarkable physical and mental freshness, ready to surprise the world with more and  more inventions as he grew older.  A lifelong bachelor he led a somewhat isolated existence, devoting his full energies to science.

In 1894, he was given honorary doctoral degrees by Columbia and Yale University and the Elliot Cresson  medal by the Franklin Institute.  In 1934, the city of Philadelphia awarded him the John Scott medal for his polyphase power system. He was an honorary member of the National Electric Light Association and a fellow of the American Association for the Advancement of Science. On one occasion, he turned down an invitation from Kaiser Wilhelm II to come to Germany to demonstrate his experiments and to receive a high decoration.

            In 1915, a New York Times article announced that Tesla and Edison were to share the Nobel Prize for physics.  Oddly, neither man received the prize, the reason being unclear.  It was rumored that Tesla refused the prize because he would not share with Edison, and because Marconi had already received his.


(Tesla's friend Mark Twain, famous American writer)

On his 75th birthday in 1931, the inventor appeared on the cover of Time Magazine. On this occasion, Tesla received congratulatory letters from more than 70 pioneers in science and engineering including Albert Einstein. These letters were mounted and presented to Tesla in the form of a testimonial volume.

            Tesla died on January 7th, 1943 in the Hotel New Yorker, where he had lived for the last ten years of his life.  Room 3327 on the 33rd floor is the two-room suites  he occupied.

            A state funeral was held at  St. John the Divine Cathedral in New York City. Telegrams of condolence were received from many notables, including the first lady Eleanor Roosevelt and Vice President Wallace. Over 2000 people attended, including several Nobel Laureates. He was cremated in Ardsley on the Hudson, New York. His ashes were interned in a golden sphere, Tesla’s favorite shape, on permanent display at the Tesla Museum in Belgrade along with his death mask.

            In his speech presenting Tesla with the Edison medal, Vice President Behrend of the Institute of Electrical Engineers eloquently expressed the following:  "Were we to seize and eliminate from our industrial world the result of Mr. Tesla's work, the wheels of industry would cease to turn, our electric cars and trains would stop, our towns would be dark and our mills would be idle and dead.  His name marks an epoch in the advance of electrical science."  Mr. Behrend ended his speech with a paraphrase of Pope's lines on Newton:  "Nature and nature's laws lay hid by night.  God said 'Let Tesla be' and all was light."



                        “The world will wait a long time for Nikola Tesla’s equal in

                                           achievement and imagination.”  E. ARMSTRONG



                                    Nikola Tesla’s Awards and Recognition



In 1917, Tesla was awarded the Edison Medal, the most coveted electrical prize in the United States.

Nikola Tesla’s name has been honored with an International Unit of Magnetic Flux Density called “Tesla."

The United States Postal Service honored Tesla with a commemorative stamp in 1983.

Tesla was inducted into the Inventor’s Hall of Fame in 1975.

The Nikola Tesla Award is one of the most distinguished honors presented by the Institute of Electrical Engineers. The award has been given annually since 1976.

The Nikola Tesla Statue is located on Goat Island to honor the man whose inventions were incorporated into the Niagara Falls Power Station  in 1895. Tesla is known as the inventor of polyphase alternating current.

The Nikola Tesla Corner Sign, located at the intersection of 40th Street and 6th Avenue in Manhattan, is a constant reminder to all New Yorkers of the greatness of this genius.

History Of Internet!!!(The Great Invention)

The concept of data communication - transmitting data between two different places, connected via some kind of electromagnetic medium, such as radio or an electrical wire - actually predates the introduction of the first computers. Such communication systems were typically limited to point to point communication between two end devices. Telegraph systems and telex machines can be considered early precursors of this kind of communication. The earlier computers used the technology available at the time to allow communication between the central processing unit and remote terminals. As the technology evolved new systems were devised to allow communication over longer distances (for terminals) or with higher speed (for interconnection of local devices) that were necessary for the mainframe computer model. Using these technologies it was possible to exchange data (such as files) between remote computers. However, the point to point communication model was limited, as it did not allow for direct communication between any two arbitrary systems; a physical link was necessary. The technology was also deemed as inherently unsafe for strategic and military use, because there were no alternative paths for the communication in case of an enemy attack.

As a response, several research programs started to explore and articulate principles of communications between physically separate systems, leading to the development of the packet switching model of digital networking. These research efforts included those of the laboratories of Vinton G. Cerf at Stanford University,Donald Davies (NPL), Paul Baran (RAND Corporation), and Leonard Kleinrock at MIT and at UCLA. The research led to the development of several packet-switched networking solutions in the late 1960s and 1970s, including ARPANET, Telenet, and the X.25 protocols. Additionally, public access and hobbyist networking systems grew in popularity, including unix-to-unix copy (UUCP) and FidoNet. They were however still disjointed separate networks, served only by limited gateways between networks. This led to the application of packet switching to develop a protocol for internetworking, where multiple different networks could be joined together into a super-framework of networks. By defining a simple common network system, the Internet Protocol Suite, the concept of the network could be separated from its physical implementation. This spread of internetworking began to form into the idea of a global network that would be called the Internet, based on standardized protocols officially implemented in 1982. Adoption and interconnection occurred quickly across the advanced telecommunication networks of the western world, and then began to penetrate into the rest of the world as it became the de-facto international standard for the global network. However, the disparity of growth between advanced nations and the third-world countries led to adigital divide that is still a concern today.

Following commercialization and introduction of privately run Internet service providers in the 1980s, and the Internet's expansion for popular use in the 1990s, the Internet has had a drastic impact on culture and commerce. This includes the rise of near instant communication by electronic mail (e-mail), text based discussion forums, and the World Wide Web. Investor speculation in new markets provided by these innovations would also lead to the inflation and subsequent collapse of the Dot-com bubble. But despite this, the Internet continues to grow, driven by commerce, greater amounts of online information and knowledge and social networking known as Web 2.0.

B.B.Q At My Home..!!!On 27th November!!!

On 27th Of November At Saturday Our Relatives & Family Members Arranged B.B.Q Setup At My Home.I Was So Excited Bcoz It Was First B.B.Q Setup In My New Flat.At 4:00 pm Relatives Started to Come And Ask When We Will Start B.B.Q. At 7:30 We Started To Fire Coal & It Takes More Than 30 to 40 Minutes.This Job Was Performed By Me & My Cxns.We All Were So Busy Till 10:00 Pm.After That We Started To Eat The Beef Boti Normally Called TIKKA BOTI:-p.At 12:00 am Relatives Started Going & After That We Go To Bed...!!!!