Lillian Fritz - Laylin is observing a strain of leukemia cell that zips along at about 10 to 20
microns per minute.
They cranked them up even more — to 200
microns per second (equivalent to 100 of the nanomachine's body lengths)-- by also adding hydrazine, an ammonia - derived chemical compound that accelerates hydrogen peroxide oxidation.
With embryonic cells migrating as fast as several
microns per second, he needed high - speed video that could capture the process.
Not exact matches
He says the 360 Eye sucks between seven to eight litres of air through it
per second — twice that of the Roomba — which gives it the power to pick up particles as small as 0.5
microns, or smaller than a human hair.
Micron Technology, Inc. (NASDAQ: MU) announced last week its fiscal third - quarter results, which showed 92 - percent year - over-year revenue growth to $ 5.57 billion and non-GAAP earnings
per share of $ 1.62 compared to $ 0.90 in the year - ago period.
When concentrations of very small particles of wood smoke pollution (smaller than 2.5
microns, a.k.a. «PM 2.5») reach above 10 micrograms
per cubic meter, researchers find a 7 percent increase in asthma inhaler refills.
The latest Smith & Loveless PISTA ® wastewater grit removal chamber, which extracts an unprecedented 95
per cent of grit as small as 100
microns, has been launched by regional supplier CST Wastewater Solutions.
The technologies — to be displayed at Ozwater 2012 exhibition in Sydney from May 8 - 10 on stand 5E1 — include the latest Smith & Loveless PISTA ® 360 ™ wastewater grit removal chamber, which extracts an unprecedented 95
per cent of grit as small as 105
microns.
«The established standard for grit removal has been 95
per cent removal at 250
microns, so achieving the same removal efficiency at 105
microns (140 mesh) sets an entirely new benchmark,» said Michael Bambridge, Managing Director of CST Wastewater Solutions.
The price of merino 17
micron merino wool was 2556 cents a kilogram in Sydney last week, up by more than 100
per cent in eight years
Even though electrons entered only at the 1D atomic edge of the graphene sheet, the contact resistance was remarkably low, reaching 100 ohms
per micron of contact width — a value smaller than what is typically achieved for contacts at the graphene top surface.
They found that as the number of fine particles less than 2.5
microns in diameter increased, so, too, did the risk of dying: each jump of 10 micrograms
per cubic meter corresponded to a 11 to 17 percent increase in the risk of dying from any cause.
But then adding a substance that can endure thousand degree temperatures to the surface of metal or carbonfibre that also blocks 33
per cent of that heat from passing through it, even though it's only a few
microns thick, you didn't expect that to be easy now, did you?
The tower, which was completed last year, is said to produce about 10 million cubic meters (353 million cubic feet) of clean air
per day, with an average reduction in PM 2.5 (fine particulate matter measuring 2.5
microns or less in width) of 15 % in local air during periods of heavy pollution.
The CO2 band with a peak CSD near 15
microns (15
microns vacuum ~ = 667
per cm (the inverse of wavelength is often used as a measure of frequency), though I'm not sure how close the peak is to that specific wavenumber.)
The shape of the CO2 absorption band, in terms of CSD
per unit CO2 concentration, can be approximated as having a peak at some frequency (designated ν0) or wavelength (about 15
microns for CO2) with, on each side of that peak, a halving of that optical thickness for each amount BW1 or BW2 that one moves away from the center (toward lower or higher frequency, respectively)
In a linear approximation (that the blackbody spectral flux as a function of local temperature changes linearly over optical thickness going down from TOA, down to a sufficient optical depth), a doubling of CO2 will bring the depth of the valley halfway towards half of the OLR (the OLR at 15
microns will decrease by 25 %
per doubling — remember this is before the temperature responds).
(CO2 is saturated at the tropopause level in the central portion of it's dominant (for Earth) band (centered near 15
microns), but the optical thickness
per unit CO2 declines away from the center in such a way that the width of the band exceeding a given optical thickness tends to widen by some amount with each doubling; it is this shifting of the «edges» of the band where adding more CO2 has an effect.)
over many iterations)-- in this section he discuss the 100 km square gaps -LCB- specifically mentioned at about 46:00 -RCB-(i.e., cell size)-- e.g., to analyze air movement, the cell would need to be,
per Komogorov microscale, 1 mm (aersols even smaller,
microns)-RRB--- in climate data, at about 44:00 His discusses the fact that even IF the basic equations were known, there isn't enough time since time began to calculate even just a TEN — year forecast, even at super-fast speeds it would take approx. 10 to the 20th power years (the universe is only 10 to the 10th power years old)-RCB-
Worse, the magnitude of the average DLR rise is 4.25 times greater than CO2 forcing and 10 times greater than aCO2 forcing so there are far greater consistent (no - ve sign) forcings in operation than CO2 / aCO2 e.g. the constant ~ 3 Wm - 2
per decade solar increase which is an ocean heating agent but CO2 is not in the DLR spectral range (4 — 16 +
microns): -
20
microns of acceleration
per annum is not significant when we pump enough water for irrigation to account for 100 times that.
.02 = 2/100 or 20/1000 1/1000 of a mm, = 1
micron or 1 / 1000000 meters 20
microns of acceleration
per annum is not significant when we pump enough water for irrigation to account for 100 times that.
Because the energy is plotted
per micron it represents the total energy between 10
micron and 11
micron.