An IUD
is a tiny device that's inserted in your uterus to prevent pregnancy.
It's a tiny device that can slip into your bag without adding much weight and without taking up much room.
A nanomachine
is a tiny device of less than a micron (one millionth of a meter, or about four one - hundred - thousandths of an inch) in size that scientists hope will soon be able to carry out a variety of medical and research functions, such as the targeted delivery of anticancer drugs, more efficiently and quickly than is possible today.
Microchip A microchip
is a tiny device (the size of a grain of rice) that is placed under the skin and stays there for life.
A microchip
is a tiny device (about the size of one grain of rice) that is inserted under a pet's skin.
A microchip
is a tiny device that can be injected just under the skin of your pet.
Microchips
are tiny devices that provide a permanent identifier that is unique to your pet.
A microchip
is a tiny device that can be painlessly inserted into your pet with your personal information digitally saved where it can be accessed by the Humane Society and other groups so you can be reunited with your pet.
Microchips
are tiny devices that provide a permanent and unalterable identifier for your cat or dog.
A microchip, which
is a tiny device about the size and shape of a grain of rice, is placed just under the loose skin at the back of the neck.
Microchips
are tiny devices that provide a permanent, unalterable identifier for your pet.
A microchip
is a tiny device (the size of a grain of rice) implanted under your pet's skin.
A microchip
is a tiny device, about the size and shape of a grain of rice, that is implanted under the skin between the pet's shoulder blades.
Hardware wallets
are tiny devices or smart cards that you plug - in to your computer / phone over USB.
An IUD
is a tiny device that's inserted into the uterus to prevent pregnancy.
Not exact matches
Monisha Perkash, CEO of Lumo Body Tech, discusses the Lumo Lift, a
tiny clip - on
device that
is aimed towards improving body posture.
But now the OnePlus 3, the attractive $ 400 third flagship
device from
tiny Chinese designer OnePlus,
is ready to go up against the ultra-premium $ 670 leader.
These
tiny wonders
are designed to work instantly, as opposed to every other experience you've had with bluetooth
devices, which constantly fail to connect or lose their connection so often that you ultimately stop using them.
According to market share data from IDC, Android
is used on more than 2 billion
devices, only a
tiny proportion of which
are Google
devices.
The MSC1
is a short - hop
device that resembles a
tiny telephone booth attached to rotors, capable of carrying eight kilograms a distance of up to eight kilometers.
Food tracking
devices such as the nanosensors embedded into food products as
tiny chips that
are invisible to the human eye would also act as electronic barcodes.
Some parents even put GPS
devices with geofences on their kids» cars, monitor their child's every move via cell phone, and check their child's social media many times a day to catch any activity that could
be deemed even the
tiniest bit inappropriate.
There
is even a
device called an SNS (supplemental nursing system) that you can put the breastmilk (or even formula) in, and it attaches to your breast (
tiny tube) so you can still nurse your baby.
Your baby's organs, nerves and muscles
are all starting to function now and although you won't
be able to feel it, their
tiny heart
is now beating strong enough to
be picked up by ultrasound
devices like a Doppler, although this isn't always possible depending on the position of your baby in the uterus.
We should invent a
device that starts out
tiny in the uterus and grows into a perfectly positioned 6 pound baby shaped thing with a 40th percentile head that
is highly mouldable and some way of triggering labour.
SQUID — or Street Quality Identification
Device —
is a
tiny contraption that sits on the bed of a pickup truck used by the Syracuse Department of Public Works, designed to measure the quality of the streets of Syracuse.
Despite
being a
tiny camera, it shoots full 1080p HD video and captures images at a very impressive 16MP, thanks to a great CMOS image sensor usually seen in much larger
devices.
However, although the
devices must
be tiny, they could
be linked in series to produce larger structures and better rectification performance.
Materials made of ultrathin, 2 - D films could
be ideal for building the next generation of
tinier devices.
In addition to
being light and flexible, it can extract electrical energy from human blood and sweat, making the
device potentially usable as a power source for
tiny medical
devices inside the human body.
Medical
devices that can fit through
tiny holes in the body and expand into designed shapes on demand would
be invaluable, says laparoscopic surgeon Frederick Finelli at George Washington University Medical Center in Washington, D.C..
«While the camera industry has made remarkable progress in shrinking the camera to a
tiny device with ever increasing imaging quality, we
are exploring a radically different approach to imaging.
Now that has changed: Forward thinkers see it as an important energizer for the
tiniest of machines,
devices on the nano scale, and a few labs
are working on ways to use the force to defy the conventional limitations of mechanical design.
The highly sensitive components could
be squeezed into narrower spaces within the
tiniest electronic
devices, making the antennas versatile enough to
be applied to future foldable electronics.
These techniques include: human tissue created by reprogramming cells from people with the relevant disease (dubbed «patient in a dish»); «body on a chip»
devices, where human tissue samples on a silicon chip
are linked by a circulating blood substitute; many computer modelling approaches, such as virtual organs, virtual patients and virtual clinical trials; and microdosing studies, where
tiny doses of drugs given to volunteers allow scientists to study their metabolism in humans, safely and with unsurpassed accuracy.
A new method for cooling down the elements of quantum
devices such as qubits, the
tiny building blocks of quantum computers,
was now theoretically proven to work by a group of physicists.
Georgia Tech assistant professor Martin Maldovan holds a
tiny thermoelectric
device that turns cold on one side when current
is applied.
A membrane — designed to support the cultivation and differentiation of human nasal epithelial stem cells —
was inserted into a small chamber on the
device and fresh or contaminated air
was fed through a
tiny channel.
The secret to this storage
device's
tiny size
is its shape, which resembles a Toblerone chocolate bar: a triangular prism with notches etched along the top.
Researchers have also
been able to coat their DNA objects with plastics, metals, and other materials to fashion
tiny machine components, electronics, and photonic
devices.
Each design differs slightly in the technical details, but the hurdles
are the same: creating an effective
device tiny enough to fi t inside the eye, powering that
device, and getting signals from the detector to the brain.
The new technology may prove useful in medical diagnostic or other
devices where
tiny streams of fluid could
be turned on or off by switching the surface behavior of a material.
Dr Paddy Royall of the University of Bristol said: «This
device looks a lot like a washing machine, but the dimensions
are tiny.
Finding out involves passing a sample of blood through a microfluidic
device, in whose
tiny channels cancer cells can
be captured and identified.
Together with his daughter Wendy and other colleagues at the Geophysical Laboratory of the Carnegie Institution for Science in Washington DC, he
was using the
device to test materials at pressures many millions of times higher than those at the Earth's surface — higher even than in our planet's core — by squeezing them between two
tiny diamond jaws.
The spacecraft for this venture would
be tiny, wafer - thin
devices loaded with microelectronics and weighing just a gram; they'd
be affixed to sturdy, ultrathin sails of comparable mass.
«This
device represents our vision of having
tiny devices that can
be implanted in minimally invasive ways to modulate or stimulate the peripheral nervous system, which has
been shown to
be efficacious in treating a number of diseases.»
The creation of neural dust at Berkeley, led by Maharbiz and Jose Carmena, a Berkeley professor of electrical engineering and computer sciences and a member of the Helen Wills Neuroscience Institute, has opened the door for wireless communication to the brain and peripheral nervous system through
tiny implantable
devices inside the body that
are powered by ultrasound.
Using power harvested from ambient light with a
tiny solar cell — roughly the size of a grain of rice — the
device was able to communicate with a base station that
was 50 feet away.
Their test
is in a
device that includes
tiny microchannels for a sample to move through.