Vacuum Up a Cleaner Home With the New Eureka AirSpeed ABS Bagged Vacuum
26.09.11
Charlotte, N.C. (PRWEB) September 26, 2011
Consumers wishing to “bag” a cleaner retreat have a new tool at their fingertips. The Eureka AirSpeed ABS upright vacuum cleaner combines the suction power of dominant AirSpeed Technology with the sanitary, dust-locking features of a bagged vacuum to method a formidable opponent against dirt. The result? AirSpeed ABS cleans carpets better than Dyson DC25 at 1/2 the expenditure!*
The force behind AirSpeed ABS’s powerful clean is its AirSpeed Technology. Most other vacuums actuate air through a long nozzle and hose system full of twists and texturing, which results in past suction. AirSpeed Technology uses two wide even tubes with limited bends and turns, allowing more air to behind the times through the vacuum. The direct air path from floor to dust cup decreases the mileage for dirt to travel, which increases the amount of airflow for powerful suction.
Unequivalent to other models in the AirSpeed line – all of which are bagless – AirSpeed ABS uses replaceable, spendable bags to capture dust and debris and completely restrain dirt and allergens.
Source: PR Web (press release)
Vacuum-like device makes cellular exploration easier
20.09.11
New floating microscopic mechanism will allow researchers to study a wide range of cellular processes
It’s a bit of a defy. But, imagine a microscopic jet vacuum cleaner, the size of a pen nib that hovers over cell surfaces without ever distressing them. Then imagine that the soap in the cleaning solution is replaced with diverse molecules that can be selectively delivered to the cells. This gives you a quickness of a new device that researchers believe will serve as a powerful road to study the behaviour of living cells and a range of momentous cellular processes, from cancer cell formation to how neurons align themselves in the developing wit.
The device was developed by a team made up of Mohammad Ameen Qasaimeh and David Juncker from McGill’s Unit of Biomedical Engineering, and Thomas Gervais from the Ecole Polytechnique of Montreal. It is based on using quadrupoles, or paired equal objects, two "positive" and two "negative" arranged in a square in ordinance to create a force field between them. Electrostatic quadrupoles are toughened in radio antennae, and magnetic quadrupoles serve to focal point beams of charged particles in particle accelerators. Quadrupoles also obtain in fluids. They have been described theoretically for decades, but this is the first time that they’ve been fabricated in a lab habitat.
Source: HealthCanal.com
