As atoms form from particles, and molecules form from atoms, so crystals and cells form from molecules and organisms form from cells.
Not exact matches
The probability of something
as complicated
as the DNA molecule being
formed by random collisions of
atoms in the primeval ocean is incredibly small.
(6) Evolutionary schemas present a dramatic ascent from an elementary formlessness to the highest of
forms,
as though the movement from raw energy and the simplest
atoms to highly intelligent life were fully comprehensible internally.
Matter does not control or direct itself, yet science
as it progresses is gradually uncovering a sort of organic unity within the universe in which
atoms become molecules, molecules link to
form chemicals that
form proteins, these link to
form DNA, simple life
forms evolve into more complex life
forms, and so on.
everything is made up of
atoms (don't believe me do some research) its the different variables of heat and light and things like that that cause different reactions to make different things and these things when they interact can create something completely different and you and slowly the process of mitosis or miosis starts to work and
form stuff hell i learnt that in high school and it was a catholic one at that a millions of years ago i bet the universe was completely different and had things in it that our minds cant even imagine that have since changed over time from action and reaction to what we have today and in another million years who knows with all the different gases we pump into the air and the weather getting more intense on both ends of the scale life
as we know it will be different the human race will have to evolve to survive and will probibly
form into a slightly different species hell maybe well evolve into 2 different species like in the movie time machine
This organic whole that began from an initial high bang and eventuated into the present universe is distinguished by a
form of unity and diversity radical beyond all imagining: infinite differences, and diversity that is marked not by isolation but by shared
atoms over millennia
as well
as minute - by - minute exchanges of oxygen and carbon dioxide between plants and animal.
Thus, at the lowest level, electrons tend to unite and converge in the
atom;
atoms converge by molecularization, crystallization; molecules unite by polymerization; cells unite by conjugation, reproduction, association; nerve ganglions concentrate and localize to
form a brain by what might be called a process of cephalization; the higher animal groups
form colonies, hives, herds, societies, etc.; man socializes and
forms civilizations
as foci of attraction and organization.
As a result sufficiently varied forms of mind or experience, some vastly different from human minds or experiences, could without contradiction be thought to relate themselves as molecules, atoms, or particles do to one another, and to our perception
As a result sufficiently varied
forms of mind or experience, some vastly different from human minds or experiences, could without contradiction be thought to relate themselves
as molecules, atoms, or particles do to one another, and to our perception
as molecules,
atoms, or particles do to one another, and to our perceptions.
4s) then photons erupted from this energy cloud (detectable today
as the microwave background radiation) 5s) photons and other particles
form the bodies of the early universe (
atoms, molecules, stars, planets, galaxies) 6s) it rained on the early earth until it was cool enough for oceans to
form 7s) the first life
form was blue green bacteria.
«What we have described
as globalization is remarkably close to Teilhard de Chardin's planetization, in which «[mankind, born on this planet and spread over its entire surface, come [s] gradually to
form round its earthly matrix, a single, major, organic unity, enclosed upon itself.4 Thus the globalization of humankind could lead to the formation of a new kind of living entity — a social organism — on the same cosmic principle
as that by which
atoms join to
form molecules, molecules join to
form mega-molecules, mega-molecules unite to
form living cells, and innumerable cells constitute an organism.
Nevertheless, basing their position on developments in molecular, organismic, and population ecology, Cobb and Birch characterize life
as an increasingly complex special
form of the organization of molecules and
atoms that also involves a temporary and local decrease in entropy; there is no absolute, dualistic distinction between the living and non-living, animate and inanimate.
In this sense an
atom is more complex than an electron, a molecule more complex than an
atom, and a living cell more complex than the highest chemical nuclei of which it is composed, the difference depending (on this I insist) not only on the number and diversity of the elements included in each case, but at least
as much on the number and correlative variety of the links
formed between these elements.
Every year we read more of the unimaginably minute particles such
as electrons, protons, positrons, mesons, and others named and described in quick succession
as science advances, which
form the outer particles and the inner nuclei of the
atom.
Cosmic and biological evolution involve change in structures —
as, for example, when electrons and protons
form hydrogen
atoms.
You are just trolling me, I guess, or you are completely clueless
as to nuclear physics and how
atoms are
formed.
4) then photons erupted from this energy 4) let there be LIGHT (1 - 4 all the first day) cloud (detectable today
as the microwave background radiation) 5) photons and other particles
form the 5) God next creates the heavens (what we call the sky) above bodies of the early universe (
atoms, (2nd day) molecules, stars, planets, galaxies) 6) it rained on the early earth until it was 6) dry land appears
as the oceans
form (3rd day) cool enough for oceans to
form 7) the first life
form was blue green bacteria.
So we must endow each and every
atom with some
form of «aboriginal consciousness» — «Mind - dust»
as James calls it.7
As for what they were doing, once the universe was cool enough to
form hydrogen
atoms, it was also cool enough for those elements to start interacting with each other and combining into molecules.
As the gas becomes denser, two hydrogen
atoms could occasionally combine to
form a single hydrogen molecule.
When heated, these
atoms form a dark - tinted crystal known
as a perovskite, a new darling of the solar cell industry (SN: 8/5/17, p. 22).
Like hydrogen, oxygen, and iodine, nitrogen normally exists
as two -
atom molecules in the
form of a gas at room temperature.
In some conceptions of these devices, quantum states that act
as units of information would have to be transferred from one group of
atoms to another in the
form of light.
GETTING TOGETHER For the first time, researchers have picked out two specific
atoms and smashed them into each other (
as suggested in this artist's conception) to
form a single molecule.
Carbon
atoms then fall onto the nickel surface, which acts
as a catalyst to help
form the graphene films.
These observations were then used
as data for computational predictions of new materials, leading to insights on how to best combine
atoms to
form new, stable structures.
In particular, if an
atom inside a solid such
as a silica wafer is hit by an X-ray photon and a hole
forms, it's not clear that the excited electron hangs around to
form an exciton.
A recent article in Nature Materials describes how researchers used X-ray scattering during a process called molecular beam epitaxy (MBE) to observe the behavior of
atoms as a type of material known
as layered oxides were being
formed.
When one mobilized platinum
atom finds another, they can
form a bond —
as long
as both of them are being lifted up by carbon monoxide, diminishing the influence of the magnetite below.
Either way, the new particle could be a tool to unlock a deeper understanding of the fundamental «strong» force that binds quarks together to
form protons and neutrons, which in turn
form atoms —
as well
as planets, stars, galaxies and people.
As long as the gold atoms, or cations, are stabilized in a single - site form configuration, irrespective of the type of support, the precious metal will be stable and operate for many hours at a range of practical temperature
As long
as the gold atoms, or cations, are stabilized in a single - site form configuration, irrespective of the type of support, the precious metal will be stable and operate for many hours at a range of practical temperature
as the gold
atoms, or cations, are stabilized in a single - site
form configuration, irrespective of the type of support, the precious metal will be stable and operate for many hours at a range of practical temperatures.
In recent years researchers have achieved better performance with compounds such
as lithium borohydride, in which the metal
atoms form weaker, ionic bonds with groups containing several hydrogen
atoms.
Atoms in the windows naturally vibrate at the same frequency
as waves of infrared energy,
forming a barrier that prevents the heat from escaping.
Organic molecules in which four different chemical groups are attached to a central carbon
atom are also chiral,
as they too can be constructed in two
forms, usually labelled d and l and known
as enantiomers.
For about 150 million years after the Big Bang, the Universe was a «dark» place, made of just hydrogen and helium
atoms,
as the first stars had yet to be
formed.
Alloys that meet these conditions solidify according to what's called the confusion principle: The widely differing atomic radii and the high number of different elements «confuse» the
atoms so they don't know where to go to
form crystals
as they cool.
Atoms of most elements, such
as hydrogen, oxygen and carbon,
form tight chemical bonds by sharing electrons with their neighbours in order to give each
atom a stable configuration of electrons.
For now, the researchers are planning to test the 51 -
atom system
as a quantum simulator, specifically on path - planning optimization problems that can be solved using adiabatic quantum computing — a
form of quantum computing first proposed by Edward Farhi, the Cecil and Ida Green Professor of Physics at MIT.
Shortly after their birth, they exploded
as supernovas, ejecting newly
formed carbon, oxygen, and nitrogen
atoms into space.
They then essentially glued the
atoms together to
form ultracold molecules, applying a magnetic field to prompt the
atoms to bond — a mechanism known
as a «Feshbach resonance,» named after the late MIT physicist Herman Feshbach.
They revealed that platinum
atoms formed multiple layers which piled up
as high
as 6 nm, the highest among metal superconductor.
Aside from the demonstration that metal
atoms can
form freestanding 2D membranes there is significant interest in the potential of such 2D metal materials
as they are expected to have exotic properties.
Graphene's carbon
atoms, depicted
as bright blobs in this scanning transmission electron microscope image,
form a chicken wire pattern.
In physics, heat is a
form of energy associated with the motion of
atoms, molecules and other particles which comprise matter; generally defined
as energy in motion.
Some mysteries remain, however, such
as why it took galaxies only a couple of billion years to
form after
atoms had emerged.
Back then, all stars needed to
form was a primordial soup of mostly hydrogen and some helium
atoms, perturbed by the effects of gravity on minuscule differences in the density of the gases, and the mysterious substance known
as dark matter.
And just
as protons, neutrons and electrons combine to
form atoms and matter, antiprotons, antineutrons and anti-electrons (called positrons) combine to
form anti-
atoms and antimatter.
They are cylinders
formed by rolling up a material known
as graphene, which is a flat, single -
atom - thick layer of carbon graphite.
Called the cosmic microwave background (CMB) radiation, this afterglow was produced about 370,000 years after the big bang when the first
atoms formed and has been studied in great detail by satellites, such
as NASA's WMAP probe.
(It is the reason helium ordinarily only occurs
as a gas or a liquid: the extremely lightweight
atoms jiggle about too much to
form a solid.)
The cosmos
as we know it started to take shape when
atoms and ions paired up to
form molecular hydrogen, which expelled heat out of the gas clouds, allowing them to cool down enough to
form the first stars.