I even understand
how some atoms have even a hyperfine structure to their atomic spectra; that is a result of the specific structure in the nucleus of that atom, rather than its electron configuration.
I could go into endless detail about how charged particles in an electric or magnetic field radiate; about how electromagnetic radiation has electric and magnetic fields; about
how atoms and molecules in collision form electric dipoles and undergo charge separation.
In either case, there isn't much choice
how the atoms can move: the pair can rotate like Viennese waltzers, or they can move alternately toward and away from one another — an atomic Jive, perhaps?
This is exactly
how the atoms work in vibrational states in terms of thermal energy.
Rather, it is an impressive, complex metaphor for life and evolution, inspiring its viewers to contemplate
how atoms create worlds as seeds give rise to life.
That wasn't enough information for design improvements - the team wanted to know which of the multitude of structures was the real catalyst, as well as
how the atoms worked together to remove the hydrogen from ammonia borane.
You know
how atoms are made of a positively charged nucleus surrounded by negatively charged electrons?
The team saw in exquisite detail
how the atoms at the hematite surface and water molecules nearby responded to far - from - equilibrium conditions caused by electrically charging the interface.
By creating a magnetic field that interacts with the nuclear spins of carbon atoms in the proteins, NMR measures a trait known as chemical shift for some of the individual atoms in the sample, which reveals
how those atoms are connected.
This research offers new insights into
how atoms in the mineral and the water molecules rearrange during charging, how these structures control the flow of electrical charge, and ultimately how this information is essential to understanding how minerals dissolve.
Researchers have long wondered
how atoms recycled from the walls of tokamaks that house fusion reactions affect turbulence, the random fluctuation of plasma that can cause heat and particle loss.
How We Did It: Close collaboration between theoreticians and experimentalists along with well - equipped laboratories and a supercomputer allowed the team to build a layer of ice two molecules thick and then to determine
how the atoms and electrons in that ice arranged themselves.
The physics of
how atoms behave in space might also explain the bonus X-rays at this energy level.
The team identified and located more than 6,500 iron and 16,600 platinum atoms and showed
how the atoms are arranged in nine grains, each of which contains different ratios of iron and platinum atoms.
Why It Matters: Electron attraction and repulsion determine
how atoms and pseudo-atoms behave in different environments.
Our scientists used advanced imaging techniques to see
how the atoms are aligned and then manipulated the nanostructure to develop the new alloy.
The spacecraft has 8 instruments designed to characterize the upper atmosphere of the planet and the processes controlling the atmosphere, including
how atoms and molecules can escape the gravitational attraction of the planet and escape to space.
In a similar way to
how atoms are structurally joined to form molecules, cells form tissues.
The researchers also expect new phenomena to occur at such low temperatures involving, for example, how cold atoms interact with surfaces and
how atoms move when they are confined to a narrow channel or layer.
It's also good for the atomic clock, he adds: knowing
how the atoms interact should help us build ever more accurate timekeepers.
«Figuring out
how atoms rearrange themselves in this material is important, and to our great surprise, what we expected to be a slower process is really rapid,» said Gleason, who was a postdoctoral researcher at SLAC and Stanford University at the time of the 2012 experiment and is now a postdoctoral fellow at Los Alamos National Laboratory.
But the quantum mechanics of this world does let us describe
how atoms form molecules.
Perovskite is a lauded new solar cell material, and high - speed images show
how its atoms react to light
«By measuring the extended upper atmosphere of the planet, MAVEN directly probes
how these atoms escape to space.
Comb technology has already had a large impact on studies of
how atoms and molecules respond to the strong electric fields obtainable in intense, ultrashort light pulses.
Being able to see
how atoms and bonds are organized in different types of matter is allowing scientists to design better materials.
The largest part of the latest slice goes to the $ 1.8 billion European Spallation Source (ESS) in Lund, Sweden, which will produce neutron beams that are an extremely sensitive probe of materials, measuring
how atoms are arranged and how they interact.
And that is that the people who were working out the consequences of quantum mechanics, shortly after quantum mechanics was discovered in 1924 and» 25, began to understand
how atoms and molecules really worked, and they asked elementary questions about the world that even ordinary people might ask.
Quantum mechanics are essentially the rules that govern
how atoms behave and fully explain the chemical behavior of most of the elements on the table.
The short story is that it successfully simulated
how atoms transition between acting as superfluids or insulators.
Theories of
how atoms collapse in such tight quarters predict that neutron stars can't grow much heavier than twice the mass of the sun, or they'll be forced to collapse into a black hole.
How atoms work, for example.
Computers are revealing
how atoms behave in solids and helping researchers to design better materials
«New approach to determining
how atoms are arranged in materials.»
«We know every atom of the chromatophore, but only when we know
the how the atoms are arranged can we fully understand these systems and how they work,» Schulten says.
Miao and his team plan to build on their results by studying
how atoms are arranged in materials that possess magnetism or energy storage functions, which will help inform our understanding of the properties of these important materials at the most fundamental scale.
This is the science of
how atoms and molecules react with each other and how larger molecules are constructed from smaller ones.
Jo Ellen Roseman, director of the long - term science literacy project, said improved ways of teaching
how atoms and molecules behave in chemical reactions will prepare students for more advanced classes in high school and college.
Meanwhile, Jonathan Morris of the Helmholtz Centre for Materials and Energy in Berlin, Germany, and his colleagues watched
how atoms within the crystals fell into alignment along trails through the lattice.
The wonder of
how atoms could get together in a multitude of ways to create life and cure diseases became a new passion of mine.
You are just trolling me, I guess, or you are completely clueless as to nuclear physics and
how atoms are formed.
It explains
how the atoms that made up that dust and gas were synthesised inside stars billions of years before that, and how thestars exploded and blew the atoms out into space.
Thus, Jehovah God took from himself energy and created all the universe and its life, establishing the atomic layout, and the laws that govern
how atoms act, whereby God asks the man Job: «Have you come to know the statutes (or governing laws) of the heavens?»
despite my religious beliefes, i can still wrap my head around the bing bang theory and evolution and we all came from single cell beings or atoms, however, until someone can explain
how these atoms / cell just arrived, i will continue with my religous beliefs
These rules predict, for example, how electrons orbit a nucleus in an atom, and
how an atom can absorb photons, particles of light.
The electrons that dance around an atomic nucleus help determine
how the atom bonds with others, but they are notoriously difficult to pin down.
It turns out that reptiles don't exist and we don't know
how the atom splits.
«The phase transition was found to involve the changes in
how atom clusters were packed together.
Consider
how Atom Zombie Smashers limited which tools you could use.
Not exact matches
Then we figured out
how to split the
atom and even more terrifying questions emerged.