EDI是 Electron Data Interchange 的缩写。()
EDI是 Electron Data Interchange 的缩写。()
EDI是 Electron Data Interchange 的缩写。()
Dr. Conrad and William C. Louis presented their initial findings in a talk yesterday at the Fermi National Accelerator Laboratory where the experiment is being performed.
The goal was to confirm or refute observations made in the 1990s in a Los Alamos experiment that observed transformations in the evanescent but bountiful particles known as neutrinos(微中子). Neutrinos have no electrical charge and almost no mass, but there are so many of them that they could collectively outweigh all the stars in the universe.
The new experiment has attracted wide interest. That reflected in part the hope of finding cracks in the Standard Model, which encapsulates physicists' current knowledge about fundamental particles and forces.
The Standard Model has proved remarkably effective and accurate, but it cannot answer some fundamental questions, like why the universe did not completely annihilate(毁灭) itself an instant after the Big Bang.
The birth of the universe 13.7 billion years ago created equal amounts of matter and antimatter. Since matter and antimatter annihilate each other when they come in contact, that would have left nothing to coalesce into stars and galaxies. There must be some imbalance in the laws of physics that led to a slight preponderance of matter over antimatter, and that extra bit of matter formed everything in the visible universe.
The imbalance, some physicists believe, may be hiding in the dynamics of neutrinos.
Neutrinos come in three known types, or flavors. And they can change flavor as they travel. But the neutrino transformations reported in the Los Alamos data do not fit the three-flavor model, suggesting four flavors of neutrinos, if not more.
The new experiment sought to count the number of times one flavor of neutrino, called a muon(μ介子), turned into another flavor, an electron neutrino.
For most of the neutrino energy range they looked at, the scientists did not see any more electron neutrinos than would be predicted by the Standard Model. That ruled out the simplest ways of interpreting the Los Alamos neutrino data, Dr. Conrad and Dr. Louis said.
But at the lower energies, the scientists did see more electron neutrinos than predicted: 369, rather than the predicted 273. That may simply mean that some calculations are off. Or it could point to a subtler interplay of particles, known and unknown.
Dr. Louis said he was surprised by the results". I was sort of expecting a clear excess or no excess", he said. "In a sense, we got both".
It can be inferred from Paragraph 1 that the" initial findings" of Dr. Conrad and Louis are ______.
A.a new class of subatoms.
B.new subatomic particles.
C.new characters of neutrinos.
D.none of the above.
EDI是电子数据交换的英语简称,该全称是Electronic Data Interchange。()
A.美国的ANSIX.12标准
B.标准EDI Electronic Data Interchange
C.联合国贸易数据元目录UNTDED
D.标准Rosetta Net
EDI 的英文全称为()。
A.Easy Data Interchange
B.Electronic Data Interchange
C.Electronic Data Interconnection
D.Easy Data Interconnection
The electron configuration 1S22s22p63s23p6fits all of the following ions except one.The exception is( )。
A.P3-B.K+C.Cl-D.Mg2+
A、EDI(Electronic Data Interchange)
B、GIS(Geographical Information System)
C、GPS(Global Positioning System)
D、IT(Information Teach)
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