Matthew A. Hunter who was an American Metallurgist
The first ever reactor was in 1942, but not power producing. The first electric power producing reactor was in the UK in 1956
Photosynthesis
The process was first developed in 2008
In 1791 Titanium was not yet used for anything by man. In that year amateur geologist and pastor William Gregor first discovered the substance in a sample of black sand by a stream near Cromwell, England. German chemist Martin Heinrich Klaproth rediscovered the substance independently in 1795 and was the first to name it, calling it titanium after the Greek mythological god Titan. Titanium first saw use in the mid 1800's when refined into titanium dioxide (TiO2). This intensely white permanent pigment was first used in paints. Today titanium dioxide is used as a pigment in paper, toothpaste, and plastics and as a strengthening agent in graphite composite products including fishing rods and golf clubs. Pure metallic titanium was first prepared in 1910 by Matthew A. Hunter at Rensselaer Polytechnic Institute. Titanium metal was not used outside the laboratory until 1932 when William Justin Kroll developed a process to produce it by reducing titanium tetrachloride (TiCl4) with calcium. Kroll developed refinements to this technique over the following decade. The Kroll process continues to be the primary method used to produce metallic titanium today. Nearly 95% of all titanium mined today continues to be used as titanium dioxide. Titanium is also used in steel as an alloying element to reduce grain size and as a deoxidizer, and in stainless steel to reduce carbon content. Titanium is also alloyed with aluminium, vanadium, copper (to harden), iron, manganese, and molybdenum. Metallic titanium has found use in many aerospace, marine and military applications. Because of their high tensile strength to density ratio, high corrosion resistance, fatigue resistance, high crack resistance, as well as their ability to withstand moderately high temperatures without creeping, titanium alloys are used in armor plating and as hull and structural fabrication material in aircraft, naval vessels, spacecraft, and missiles. The SR-71 Blackbird was one of the first aircraft to make extensive structural use of titanium. Since then, titanium has become widely used in commercial aircraft. A Boeing 777 is estimated to contain 59 metric tons (139,000 pounds) of titanium. The Airbus A340 contains about 32 metric tons.
it is the starting of the word titanium :) ;) :p
Missouri
Yes, titanium can be hammered into shape through a process known as forging. However, due to its strong and tough nature, titanium requires a significant amount of force and expertise to be shaped successfully. Additionally, care must be taken to prevent the material from cracking or becoming brittle during the forging process.
Charles Richard drew
Birdseye began producing the first fish fingers in 1955. They were invented by Clarence Birdseye after he developed commercial quick freezing.
Titanium chloride or Titanium dichloride or dichlorotitaniumResponse to the answer above:It is Titanmium Dichloride. There are two chlorine bonded to titanium that's acting as the central atom.It would be Titanium Chloride if there was one Chlorine bonded to one Titanium. BUT its a 1:2 ratio, which rules out Titanium Chloride.Dichlorotitanium isn't even possible. Titanium is the positive atom not to mention the central atom so therefore its the first "in line" so to speak to be named, then comes whats attached to it.EXMAPLE: CO2 is Carbon Dioxide, because 2 Oxygen Molecules are attached to 1 Carbon. And because Carbon is the positively charged atom (like Titanium) its named first, which is why its not called Dioxycarbon.
The first Apple I was developed by Steve Jobs and Stephen Wozniak in 1976. Rod Holt Joined them in producing the Apple computer in their dad's garage. Jef Raskin joined them to design the first Macintosh.
when were the first canoes developed