But Alaska had the aurora borealis, the natural display of
colored lights created at high latitudes as charged particles hit the atmosphere.
Not exact matches
Whatever
color palette you choose, beware of
creating too much contrast between the
light walls and dark
colors of the furniture or decor, says Brown.
As for aesthetics, the
color - changing night
light (seven
colors in all),
creates a cool lava lamp - like vibe.
You could, for example,
create a different «watch TV» scene and a «watch a movie» scene, which might set the
lights at different levels or
colors.
Light doesn't
create color.
Fresh avocado combines with zesty lime juice to
create this
light, festively
colored cheesecake.
To
create a marbled effect, dip a doughnut in the
lighter colored frosting.
Within Fashion Island Hotel is an intimate place of quiet relaxation with soothing hues of
light and
color,
creating the perfect place to disconnect and replenish.
Spirulina is derived from blue - green algae and
creates a beautiful sky blue
color that's both heat and
light stable.
This summery recipe incorporates classic Italian
colors and flavors,
creating a
light and tasty pasta dish.
Crayola
Color Wonder Magic
Light Brush lets kids
create colorful art without the mess!
Make sure there's real amber in your amber teething necklace; when placed against something hot you should smell a hint of pine, rub your necklace against a piece of cloth and see if it
creates static, and check to see your
colors are buttery and
light anything too bold has probably been cooked which reduces the effectiveness.
The Stork Craft Glider and Ottoman set are affordable and comfortable,
created in a
light beige
color with dark wood.
This beautiful ombre Easter Egg art project teaches kids about
creating lighter and darker
colors while making a fun Easter art project that kids will love!
Create a relaxing and beautiful atmosphere in your living room and chose from eight
light projection modes and
colors based on your mood.
Telescopes that rely on glass lenses, such as Galileo's designs, focus the
light of various
colors differently,
creating a blurred image.
The Hiroshima University team, led by Masayuki Sumida,
created the frog by breeding garden - variety Japanese brown frogs that had recessive genes for
light -
colored skin.
(An actual prism bends
light, causing it to fan out and reveal its various wavelengths or
colors, which is how a prism can
create a rainbow from sunlight.)
Most organisms»
colors are produced by pigments that absorb certain wavelengths of
light, but not others, to
create a
color.
The crystals are also saturated with fluorescent pigments that help them
create specific wavelengths of
light, visible to us as bright
colors.
The velvet asity, endemic to Madagascar, is distinguished by its fluorescent green wattle; the
color is
created when collagen fibers scatter
light.
Researchers from North Carolina State University have developed a method for
creating «nano - volcanoes» by shining various
colors of
light through a nanoscale «crystal ball» made of a synthetic polymer.
They're one of the key ingredients in a new way to craft a spectrum of structural
colors — hues
created when
light interacts with special nanostructures.
Though it looks chaotic at first glance, this migration map, which shows the electronic tracks of 19 shearwaters
created by UC Santa Cruz biologist Scott Shaffer in 2005,
color - codes the various legs of their trek:
light - blue lines track the birds during breeding season, yellow lines represent the northward journey, and orange lines show the winter feeding grounds and southward return.
Unlike pigments, which
create color by absorbing some wavelengths of
light and reflecting the rest, the nanostructures are shaped so that they physically bend and scatter
light in different directions, sending particular
colors back to our eyes.
Butterflies
create color by selectively adding and deleting certain wavelengths of
light.
These three false -
color images represent the quantum Hall state that University of Chicago physicists
created by shining infrared laser
light at specially configured mirrors.
The visible range — the violet to red wavelengths — represent the majority of the sun's rays, but there are few materials that pick up these
light colors to
create the chemical reaction that transforms CO2 into fuel.
Dimers in the atmosphere absorb
light like a
color filter on a camera lens,
creating anomalies detectable once the pressure of the planet is at least 0.25 bars — high enough to hold down liquid water.
However, whereas the size of the quantum dots is extremely important when making
color display screens, it may prove to be less of a concern when
creating a material used to improve a pixel's ability to capture
light in general, something that could work in InVisage's favor.
Lead researcher Jason Heikenfeld says the display can
create 1,000
colors, reflects about 55 percent of ambient
light and could reach 85 percent reflectivity.
The researchers can employ different types rare - earth elements, which glow under slightly different
colors of shortwave infrared
light, to
create a family of probes that are sensitive to a variety of cancers.
And like a computer
creating a full -
color display by mixing different proportions of red, green and blue
light, the coordinate system lets a brain paint any face in a spectrum.
An example of this kind of
coloring by
light interference is found in nature: Squids can modify the nanostructure of their skin to mirror back their surrounding environment,
creating a natural camouflage.
In an LED display, the emissions from red, green and blue diodes are blended to
create the white and
colored light necessary to render images.
Neil's machine produces coherent laser
light directly from an electron beam, allowing it to
create any wavelength of
light — in other words, any
color on the spectrum.
The insects owe their brilliant looks to photonic nanostructures — crystalline structures in their wings that reflect
light and repeat on the order of every few nanometers — and now scientists think that they have figured out how these structures
create such vivid
colors.
In the method
created by Khakh's team, different
colors of
light pass through a lens to magnify objects that are invisible to the naked eye and far smaller than those viewable by earlier techniques.
«We demonstrated a seemingly simple — but in fact sophisticated — way to
create LED
lights that change in a natural way to a cozy, warm white
color when dimmed,» said Hugo Cornelissen, a principal scientist in the Optics Research Department at Philips Research Eindhoven, a corporate scientific research entity owned by the company Royal Philips in the Netherlands.
The added complexity comes with its drawbacks: multiple components can increase the cost and the risk of failure, and mixing the
light from multiple LEDs without
creating color shadows and other
light artifacts is a tricky business.
Light refracting through those crystals
creates the halo and ensures that red, the
color that bends least, will paint the inside of the ring.
In fact, the Whitesides Research Group, whose work is part of M3, last year
created a $ 100 silicon robot that could walk, change
color and
light up in the dark.
Funded by the National Science Foundation, LESA's vision is focused on
creating digitized,
color tunable illumination for new applications in
lighting, health care, building management, horticulture, and advanced 5G wireless communications platforms.
NIRSpec is Webb's primary spectrograph, an instrument that breaks
light into its component
colors, which
creates a «spectrum» for scientists to analyze.
A new method for building «drawbridges» between metal nanoparticles may allow electronics makers to build full -
color displays using
light - scattering nanoparticles that are similar to the gold materials that medieval artisans used to
create red stained - glass.
«The trick is to split the
light up into many
colors and
create what astronomers call a high - resolution spectrum, which helps distinguish the signature of the planet from that of residual starlight.»
«We hope to eventually bring all of these technologies together to
create a new material that can sense
light in full
color and react with full -
color camouflage displays,» Halas said.
Scientists then process these images by mapping each
light emission to a different
color in order to
create the image you're seeing.
By mimicking the intricate visual system of a butterfly, researchers have
created a camera that provides surgeons with both a traditional
color image as well as a near - infrared image that makes fluorescently labeled cancerous cells visible even under bright surgical
lighting.
For about two weeks the star could be seen in daylight, but at the end of November it began to fade and change
color, from bright white over yellow and orange to faint reddish
light, finally fading away from visibility in March, 1574, having been visible to the naked eye for almost 16 months (more about Brahe's «acid tongue and silver nose,» the cultural shock of the «new star,» and how supernovae
create high - energy radiation from Wallace H. Tucker).