Sentences with phrase «white particles»
This «ink» consists of thousands of capsules containing positively charged white particles and negatively charged black ones.
newscientist.com
This technique sees white particles suspended in a dark liquid.
It is also common to see white particles that look like seeds in the stool.
They constantly shed white particles from their feathers and may cause your allergies to flare up.
This «ink» consists of thousands of capsules containing positively charged white particles and negatively charged black ones.
An interim solution was found in the three - color - ink display which operates similarly to the monochrome one, the only difference being that a third pigment is added to the black and white particles of the EPD film.
When an electric field is applied (when turning pages, making selections, etc), the charged white particles move either to the top or the bottom of the fluid, depending on the polarity of the electric field applied.
There are also white particles in between (they do not move) and so white can be displayed.
I purchased one long piece of white particle board and six knobs for this project from Home Depot.
Moving the microscopic black and white particles around to make the e-paper screen spell out what you need to say requires power — and the more particles you have, the more power you will need.
I just now started to use some and noticed that one of the bags has little white particles in it when thawed.
SiPix epaper displays are created by inserting electrically - charged white particles into a black dielectric fluid within Microcups.
E Ink's technology uses a process in which images are created by electrically controlling the movement of black or white particles within tiny microcapsules.
While this is perfect for creating resilient monochrome and even grayscale images, where teeny - tiny black and white particles arrange in different distances to the surface of the display to form an image, it poses a problem when trying to show things in color.
By introducing a negative or positive charge, the black or white particles inside an EPD that carry a corresponding charge are moved to the surface of the display, where they create a picture or text.
This is a particle - based display, which was conceived originally by Isao Ota in the 70s, where white particles in a dark dye, or oppositely charged particles in a glass cavity, provided the contrast media.
When they shed, many white particles are released from their coat, landing on rugs and furniture everywhere they go.
Flea eggs are small white particles, similar in size to flea dirt, that fleas lay in a pet's hair coat.
POPE.L Mal Content 1992 Acrylic, gel medium, newspaper and peanut butter on white particle board 34 7/8 by 24 3/4 by 2 in.
most of the storage is that cheep white particle board shelving which has seen better days.
This used tiny microcapsules filled with electrically charged white particles suspended in a colored oil.
Changes in polarity move the black and white particles around the capsule, moving them closer to the display surface and outlining an image on screen.
The microcapsules, which are about the same width as human hair, contain both positively charged white particles and negatively charged black particles.
While the arranging of small black and white particles in different distances to the surface of the display is perfect for black and white or grayscale images, it poses a challenge when trying to show things in color.
Applying an electric field through the organic circuit to a particular area of the display attracts either the black or white particles, causing that part of the screen to turn either white or black.
Applying an electric field through the organic circuit to a particular area of the display attracts either the black or white particles, causing that part of the screen to turn either white or black.
E-Ink's Vizplex products use electrophoretic technology, in which tiny microcapsules containing even tinier black and white particles suspended in fluid are sealed into a film that is in turn laminated to a sheet of electronic circuitry.
Applying a negative electrical field causes the white particles to come to the surface.
If the white particles are at the visible surface, that area of the display reflects a white color to the viewer.
E Ink works using microcapsules that contain a positively charged white particles or negatively charged black particles.
The black particles — consisting of carbon black — make up the «ink,» while the white particles — consisting of titanium dioxide — serve as the «paper.»
The team wondered what would happen if they instead filled the sandwich with microcapsules — each one smaller than the width of a human hair — containing positively charged white particles and negatively charged black particles suspended in oil.
In such a scenario, if it is the white particles that are oriented towards the visible surface then the region will be depicted as white to the viewer.
Each microcapsule contains negatively charged white particles and positively charged black particles suspended in a clear fluid.
In E Ink's Vizplex and Pearl displays, there are millions of microcapsules about the width of a human hair that contain positively charged white particles and negatively charged black particles.
The display is composed of tiny capsules of E Ink with black and white particles that get rearranged every time the screen changes.
The subtle difference from E Ink is that the white particles are charged and the black ones neutral.
Once a positive electric field is applied, the white particle moves to the top of the microcapsule becoming visible to the leader by making the ereader screen white at that specific location and once a negative electric field is applied the black particle behaves the same but making the screen appear darker at that location.
Each of this microcapsule has two particles; a positive charged white particle and a negative charged black particle, both suspended in a clear fluid.
The white particles carry a positive charge and the black particles a negative one.
When the white particles of the e ink display move to the surface, they reflect color by combining these colored sub-elements.
The filter's pixels are divided into groups of three phosphor dots coloured red, green, and blue: when the correct charge is applied and the white particles of the black and white display move to its surface, they will reflect ambient light, causing the embedded RGBW filter to reflect color back to the reader by combining red, green and blue.
When a negative electric field is applied to the «ink», the white particles move to the top of the capsule making the surface appear white at that specific spot.
Using electricity, we can choose whether the black or the white particles are on top - and thus create a black or white «pixel».
The positively charged white particles and negatively charged black particles react to changes in electrical current, moving to the display surface and coloring the surface.
When the white particles of the e-paper display are pushed to the surface to reflect ambient light, the embedded RGBW filter reflects color back to the reader by combining the red, green and blue elements.
[15] In early versions, the underlying circuitry controlled whether the white particles were at the top of the capsule (so it looked white to the viewer) or at the bottom of the capsule (so the viewer saw the color of the oil).
All aerosols block sunlight, but dark particles (soot) warm the atmosphere and white particles (sulfates) cool it.