Later Life and Legacy Babbage continued trying to make the analytical engine, but he was never successful. He took up his post there in 1843. He responded that she could have written the article herself, and Lovelace embarked upon additional work on the translation, adding detailed appendices and footnotes to the content. It needed hundreds of carefully machined components that worked in perfect coordination, as any slack in the gears might result in the engine going out of control. Though the couple had eight children seven sons and a daughter , only three of them survived to adulthood. He ached for recognition and was aggrieved at its lack grumbling that the Lucasian chair of mathematics at Cambridge, was the only honor bestowed on him by his country.
Around the age of 10, Charles had a violent attack of fever that was almost fatal. In 1991 a difference engine was completed, starting from Babbage's original plans, and it functioned perfectly. After this incident he realised that the discovery of a tiny piece of metal had completely diverted his mind of the headache he had felt then. Charles travelled through Netherlands, Belgium, Germany and Italy, visiting universities, manufacturing facilities and a lot of leading European scientists. On reaching Cambridge, he met his tutor, Hudson, then made arrangements for accommodation and spent most of that night reading his new book. He also helped Ada pursue her mathematical studies with the great mathematician Augustus de Morgan in 1840 at the University of London.
The young Ada was a mathematic prodigy and her mother Lady Byron, a trained mathematician also encouraged Ada in the subject. Apart from his interests in mechanical objects, Charles was also fascinated by the supernatural world. Babbage's problems with the treasury coincided with numerous disagreements with Clement. During the eight-year wait, Babbage suffered disdain from many that thought his work was not worth pursuing. Consisting of six vertical axles and a few dozen gears, the section was around 24 inches high, 19 inches wide and 14 inches deep. Babbage's Table of Logarithms of the Natural Numbers from 1 to 108,000 was a paradigm of accuracy and was extensively used into the twentieth century. It was a grand success that truly justified Charles Babbage's technical work.
It is believed his conversations with de Prony advanced his work with the difference machine. It was a text mainly on Economics as applied to manufacturing, meant for a lay audience, particularly ambitious factory workers. There is no doubt, that Babbage was an outstanding genius and he is the only man if any! Charles Babbage started working on this in 1843. But he hardly knew what awaited him. Babbage's brain is preserved at the Science Museum in London.
He then rushed back to his companions but did not mention a word about his experiment. Charles realised that the master had a clear picture of the actual purpose of the group and who had misled this purpose. At Trinity, Babbage read mathematics, and in 1812 he joined Peterhouse at Cambridge University, where he was the top mathematician. He returned to England only at the end of 1828, and held the position for 12 years. In 2011, a group of scientists in England began trying to construct a working model of the analytical engine. In 1819, he applied again for a professorship, this time at Edinburgh. That is, having all the privileges of a hereditary baron, including a seat in the House of Lords.
But despite all his recommendations from prominent French and English mathematicians, Babbage did not gain the position. Charles on the other hand kept himself busy with his extreme passion of machine building. He explained about certain objects on display to the public that they had access to. Fortunately, Benjamin continued his £300 annual allowance, to which Georgiana could add £150 of her own. It had a glass roof for lighting, and a fireproof, dust-free room to contain the machine.
In 1814, Charles Babbage married Georgiana Whitmore at St. Babbage began creating a machine to produce those tables mechanically in 1819. His first project which was successful was his small machine which was meant to compute squares. Charles wanted the machine to calculate a sequence of values of a polynomial by the method of differences. His childhood was marred by chronic illness and hoping that country living would improve his health, around the age of eight his parents began to sent him to country schools. It measured 11 feet long, 7 feet high and 18 inches deep, and weighted 2. The title of the first biography on his life was called 'Irascible Genius: A Life of Charles Babbage, Inventor'.
Parts of Babbage's uncompleted mechanisms are available for visits in the London Science Museum. The difference engine project had come under fire during Babbage's absence. What he found was that those that did exist were inaccurate and he needed to know a better way. A few days later, he met Hudson as he needed help with a mathematical problem. But he is most famous for his work on what he called the Difference Engine and, later, the Analytical Engine.