Sentences with phrase «by molecule tiny»
Photo Credit: Molecule Tiny Homes This is yet another amazing design by Molecule Tiny Homes that recently sold for $ 50,000.
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The atoms and molecules are in turn constituted by tiny «energy events,» invisible even under the most powerful microscope.
That approach — known as electrospray ionization — ionizes large molecules by dissolving them in a solvent and using an intense electric field to pull tiny charged droplets of solution from the end of a needle.
Many scientists believe that the aging process is caused by the gradual buildup of a huge number of individually tiny faults — some damage to a DNA strand here, a deranged protein molecule there, and so on.
By targeting this switch with tiny molecules, researchers could deny the macrophages calcium and prevent inflammation — even in the brain.
The second confirmed the existence of molecules and atoms by statistically showing how their random collisions explained the jerky Brownian motion of tiny particles in water.
Maxwell suggested that a nefarious tiny being could shuttle around molecules to decrease entropy — for example, by putting all the fast - moving molecules on one side of a box containing a gas and the slower ones on the other side.
Or take the Greek alcohol ouzo — it turns cloudy white when you add water, because it's an emulsion of tiny droplets of oil (the alcohol) destabilized by the water molecules.
The research was carried out by experts in synthetic and theoretical chemistry, materials and electron microscopy and builds on Professor Khlobystov's concept of carbon nano test tubes (World's tiniest test tubes, Guinness Book of World Records 2005), where the nanotube acts as a container for molecules.
In the new study, researchers placed tiny particles of silicon carbide (one represented by the group of tan molecules in this artist's concept) covered with graphite (hexagonal networks of gray atoms) in a vacuum chamber that duplicated the deep - space conditions surrounding many stars (temperatures between 900 and 1500 kelvins and pressures less than one - billionth that found at Earth's surface).
Any crystal originates from a nucleus, a tiny crystalline seed, which forms by the spontaneous grouping of a few molecules in solution that have to adopt a regular organization in three - dimensions.
When a low - energy neutrino or antineutrino from a supernova collides with a water molecule in the tank, the resulting light signal is recorded by about 100 of 13,000 photomultipliers, ultrasensitive light - detecting devices that turn a tiny flash of light into a larger recordable burst of electricity.
Now, researchers have developed tools to study these ephemeral molecules in small quarters of the cell, and using these techniques, have shown that the cell manages the conflicting effects of ROS by sequestering the molecule to tiny compartments or nanodomains where it acts locally, without damaging surrounding organelles or DNA.
The first step toward building such tiny machines was taken by Jean - Pierre Sauvage in 1983, when he linked two ring - shaped molecules together to form a chain, allowing one component to move freely around the other.
Rather, the work of folding is done by much smaller water molecules, which surround proteins and push and pull at them to make them fold a certain way in fractions of a second, like scores of tiny origami artists folding a giant sheet of paper at blazingly fast speeds.
Moreover, using metabolomic analysis (looking at the metabolites — the tiny molecules produced during metabolism — in subject stool samples), the researchers were also able to see that, while bacterial species varied between individuals, the biological functions served by the various species in the microbiome remained consistent over time, and from person to person.
In contrast, a tiny machine unveiled this year jiggles in ways explicable only by the weird rules of quantum mechanics, which ordinarily govern molecules, atoms, and subatomic particles.
These predictions, which were verified by comparisons with high - resolution microscopic images of real molecules on metal surfaces, may lead to controlled, large - scale fabrication of tiny electrical wires and other nanomaterials for future devices.
But Brian Shoichet, co-senior author on the Nature paper and professor in the department of pharmaceutical chemistry at the University of California, San Francisco, says that they had another requirement, too, which was met by only a tiny subset of those molecules.
Researchers from MIT have now found a safe and efficient way to get large molecules through the cell membrane, by squeezing the cells through a narrow constriction that opens up tiny, temporary holes in the membrane.
A large portion of secondary organic aerosols - tiny particles in the air we breathe that contribute to cloud formation and precipitation - arise from a combination of man - made pollution and molecules given off by plant matter.
This primary response involves the production of reactive oxygen species (ROS), which are molecules that can act like tiny bombs when released by the plant cell at the offending pathogen.
In a new study, scientists led by Selvi C. Jeyaraj of the Research Institute at Nationwide Children's Hospital have identified a biological mechanism that may be responsible for icy extremities: an interaction between a series of molecules and receptors on smooth muscle cells that line the skin's tiny blood vessels.
Micelle technology works by suspending tiny micelle cleansing molecules in a soft water solution.
They're powered by tiny micelle molecules in water that cluster together to surround and lift away impurities and makeup, no harsh rubbing or rinsing necessary!
Micellar water works by utilizing tiny, round micelle cleansing molecules which are suspended in a solution.
Imagine these atoms within a molecule as tiny balls, linked by immaterial springs.
Not being absorbed by real world water, visible is not only not capable because of its tiny scale of moving the whole molecule of water into vibration which is what it takes to heat water, but it isn't even able to be absorbed by the electrons of the water molecules as the electrons of the molecules of air absorb it, so water doesn't reflect / scatter visible light on the electrons of molecule level as does air, but gives up and passes it along, and so, visible is transmitted through, also, unchanged, but much delayed.
Bounced around like balls in a pinball machine by the molecules of nitrogen and oxygen when their electrons absorb the tiny bits of light and spit them back out again.
The electronic transition level, which is absorption by the electrons of a molecule, is on the tiny scale which visible light / shortwave impinges on matter.
Tiny visible light is not a powerful energy, it is so weak it gets bounced around all over our sky by the electrons of the molecules of nitrogen and oxygen as they absorb and spit it out again.
1 molecule out of 2500 molecules of air is co2, as Anymoose points out, but only about 4 % of these are contributed by man and it this tiny addition which supposedly tips the see - saw and causes thermal runaway of the planet.
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Earth's atmosphere is mostly empty space; the tiny fraction of that space that is occupied by N2 molecules, is actually accounted for in the Van der Waals equation of state.
Its molecules are held together by means of the exchange of tiny particles known as morons.