So you are no fan of Israel and you think that they only do two things well, interesting.
I copied the following from the net a few years ago and I did the right thing of ensuring I was not spreading propaganda. I can not provide you with a website.... sorry.
Theodore Maiman successfully fired the first working laser on May 16, 1960. Of course, he wasn't the first Jew involved in this innovation--it was Albert Einstein who established the theoretical foundations for the laser back in 1917. Today, Russian Jewish scientist Zhores Alferov continues to work in the area of semiconductor heterostructures. Alferov won a Nobel Prize in Physics in 2000 for this work, which led to the invention of the heterotransistor, a laser that could handle extremely high frequencies. At the time of the Nobel Prize, Hermann Grimmeiss of the Royal Swedish Academy of Sciences said, "Without Alferov, it would not be possible to transfer all the information from satellites down to the Earth or to have so many telephone lines between cities."
The laser, a device named for the acronym "light amplification by stimulated emission of radiation," focuses light on a tight spot across a narrow spectrum of colors. Lasers are used in everyday devices like DVD players and barcode scanners and specialized applications like laser surgery and welding materials. Military and law enforcement use lasers as a tool to mark targets, measure speed and set range. From weapons to entertainment, lasers impact all corners of modern life.
Paul Zoll was one of the pioneers in the development of both the cardiac pacemaker and defibrillator. Pacemakers and defibrillators have saved countless lives over the years. The former regulates the heartbeat with electrical impulses, while the latter can restart the heart in the case of dysrhythmia. Some patients awaiting surgery for a pacemaker will wear an external defibrillator to automatically shock their heart in the case of a near-fatal dysrhythmia.
While genetic engineering still has the ring of science fiction to it, the manipulation of DNA through biotechnology is currently used in medicine and agriculture. Among other applications, genetically modified organisms (GMOs) are used to mass-produce insulin and create disease-resistant crops. Though genetically modified food has caused controversy, the process of genetic engineering has shown promise for treating certain kinds of cancer. In 1980, the US supreme court ruled that genetic life could be patented, setting a precedent that continues to affect financial and scientific concerns today.
The J-Connection?
Jewish American scientist Paul Berg created the first recombinant DNA molecules in 1972 by combining two viruses, which led to the development of modern genetic engineering. One year later, Herbert Boyer and his Jewish colleague Stanley Cohen created the first transgenic organism by inserting genes into an E. coli bacterium.
Stainless steel does not corrode, rust, or stain like ordinary steel. It's applications are various, from kitchen appliances to architecture to aircraft.
The J-Connection?
German Jewish chemist Hans Goldschmidt developed the process by which carbon-free chromium could be produced in 1893. Goldschmidt patented the thermite reaction in 1895, pursuing both its ability to produce very pure metals and its value in welding. Stainless steel is an alloy that is more than 10 percent chromium with a low carbon content, so Goldschmidt's discovery allowed scientists to create what would now be considered stainless steel in the early 1900s.
Mass-Energy Equivalence
Mass-energy equivalence, better known by its formula E = mc², is the concept that the mass of an object or system is a measure of its energy content. In some measure, this discovery led to the creation of the atomic bomb.
The J-Connection?
Why, Einstein, of course! While he was not the first to propose a relationship between mass and energy, he was the first to interpret mass-energy equivalence as a fundamental principle that follows from the relativistic symmetries of space and time.
Cholera & Bubonic Plague Vaccines
Cholera and the bubonic plague devastated central Asia and India in the mid-19th century. Thanks to the rise in global trade, the cholera pandemic had migrated to Europe and the United States by 1827, and spread in a series of outbreaks to Africa and South America. Cholera is recognized as one of the most widespread and deadly diseases of the 19th century, killing tens of millions of people. The bubonic plague, on the other hand, was first recorded in the sixth century. It is perhaps best known as the black death, which ravaged Europe in the middle ages in what is now considered the most deadly disease outbreak in history. But by the mid-19th century there was still no vaccine, and small outbreaks continued from India to Hawaii. Though still in existence today, the bubonic plague is near eradicated, while cholera continues to to affect millions of people.
The J-Connection?
Back in the 1300s, Jews were sometimes blamed for outbreaks of the black death. More recently, Jewish bacteriologist Waldemar Haffkine is credited as the first microbiologist to develop vaccines against cholera and bubonic plague. Risking his own life, he tested each vaccine on himself, and even moved to India to be closer to the source of the outbreaks. For his work, British surgeon Sir Joseph Lister named Haffkine "a savior of humanity," and he was knighted in 1897.
Poliomyelitis, often called polio or infantile paralysis, is an infectious disease that can cause paralysis. Major polio epidemics began to appear in the late 19th century in Europe, coming to the United States shortly thereafter. Polio quickly became one of the most dreaded childhood diseases of the 20th century, finding its most famous sufferer in US president Franklin D. Roosevelt. The race toward a vaccine culminated with successful trials in the 1950s, and now polio vaccines have reduced the number of global cases from hundreds of thousands to just under a thousand per year.
The J-Connection?
Austrian Jewish biologist Karl Landsteiner identified polio's causative agent in 1908. But the true hero is Jonas Salk, the Jewish medical researcher who developed the first successful inactive polio vaccine. The field trial for the vaccine, which took seven years to develop, involved over one million school children. When news of the vaccine's success was announced in 1955, Salk was hailed as a hero. Further, he refused to patent the vaccine, choosing to save lives rather than make a profit.
Google has changed the landscape of the Internet, and the world, forever. The company, which began as a new kind of search engine, now makes a slew of products, from Gmail and Drive to Glass and AdWords. Google leads the development of the Android mobile operating system and the browser-only Chrome operating system for the Chromebook computer. In 2011, the number of monthly unique visitors to Google.com surpassed one billion for the first time.
The J-Connection?
Google was founded by Larry Page and Sergey Brin while the pair was attending Stanford University. Both founders are Jewish, and endorse the company's motto, "Don't be evil."
This is only a partial list, there are a great deal more.
When JFK was still a senator he traveled to Israel and he spoke, in that speech he made the following remark: "For Israel was not created in order to disappear - Israel will endure and flourish. It is the child of hope and the home of the brave. It can neither be broken by adversity nor demoralized by success. It carries the shield of democracy and it honors the sword of freedom; and no area of the world has ever had an overabundance of democracy and freedom."
donald41 wrote:
I am not a fan of Israel, But they know how to run a country and win a war.