Everyone is sure to feel a little cheerful about the bond? Chemistry means the taste of the juice! Ionic, composite, insertion, Vanderhaws are the new areas of excitement, that is, the bones found in the sciences, which are compulsive ties. Although, about 30 years ago, the batch was found by scientists, but due to the lack of technology and evidence it was inconceivable.
Recently, a new study of artificial isotopes (the same proton number of atoms) is present in the new ties. Which can be explained by the theory of ancient chemistry. A study published in the German chemistry journal Angenwandte chemie international edition, led by Donald Fleming of the University of British Columbia in Colombia, has been published.
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We know that the proton number of any element that carries the original identity The atoms of some elements have the same number of protons in the nucleus, although the number of neutrons is different. And this condition of atom is called isotope. And this type of atom means that the differences in the masses in the isotopes are influenced by the formation of ties of the elements and in many other areas. The number of natural and stable isotopes is not less in our nature (as there are 10 such isotopes of tin). But we can create synthetic isotopes in labs too. It is possible to create this artificial isotope by adding a negative amount of neutron to the atom in the atom.
Before going to the bottom of the vibratory bond, do not know about its initial identity. Subject to certain conditions, it is often seen when reacting between heavy atoms and light atoms that the speed of the reaction does not increase or decrease after the increase in temperature. And in order to uncover this mystery, scientists are motivated to observe the intervals of reaction. From here on, they present the vibrational bonds in front of us. These ties are basically explained in the case of heavy and light atoms.
Hydrogen isotope protein (1) of 1 proton is similar to the one of the external chemical elements of the molecule (mu), it is basically a type of hydrogen isotope. Whose anti-monocular nucleus is rotating with only one electron. However, this element is slightly lighter than the protein. In 1989, the emergence of the molecule was very unexpectedly during an examination of the vibratory ties of 1989. We know that the speed of the reaction increases with the increase in temperature. But with the growth of temperature between the bromine and mononuclear during the radiation, their reaction speed decreases suddenly. Which did not happen with fluorine or chlorine with monoamine. This incident kept scientists waiting for further research in the presence of appropriate technology. Because in 1989 the technology required to test this test did not even emerge.
Recently Donald Fleming and his team re-examined the 1989 unfinished test in the Ritter Ford Epitapine Laboratory of England. Then they noticed that Donald Fleming, however, tried to show that the modulation of the monoamy and the bromine would be done through the bonding of the Vandervals, in reality the vibratory bonds of their mild reactionary bonds. Three natural isotopes of hydrogen (1H, 2H, 3H), another heavy hydrogen isotope, were exposed to monoamine and bromine. Researchers from the reaction observed the Quantum Mechanization of Reaction.
A recent study by Mu's reaction to the lightest isotope, BrMuBr, was noticed that Br2 + Mu's tremendous bonding took place during the mutual emigration ", saying Donald Fleming Apart from this, he showed that light molecule atoms are associated with their own tremors (can be called by dancing!) With a relatively strong bromine atom, and as a result, the overall reaction rate decreases.
Chemists from Saitama University of Japan and the University of Berlin at the University of Berlin also tested Donald's experiments in a different way.
"Our BrMuBr test highlights the existence of new bonds. At the same time, an isotopic atom proves to be able to change the traditional chemical bonds under certain conditions. The atoms we use in this experiment are completely different from each other, especially from the process of formation of energy and the formation of ties, "said John Mandey of the French University of Berlin. Later, on the basis of all the results, evidence and opinions, the emergence of this new vibratory, temporary bond has been recognized in the chemistry world. But this case will be kept in check for other heavy and light elements in addition to the monoamy and bromine.
So by this new tie, we will be able to penetrate the seams with the increase in temperature as well as decrease in speed due to certain specific conditions, and also with the new juice stimulation.
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