Not exact matches
Paul Graham is
on record as saying that you should do things that don't
scale — but spare a thought for how they will, and remember to value your own
time.
In short, a rider's
time is measured against the world
record for the distance and category and the rider is awarded points
on a sliding
scale: the closer they get to their corresponding world best, the more points they get.
I love that I can put each child
on the
scale, see their name appear
on the
scale to give me assurance that their weight has been properly
recorded and then turn
on the app at a later
time to see the readings show up
on their weight charts.
Measuring - Temperature and Thermometers Classifying Components of Mixtures Predicting - Surveying Opinion SAPA Part C, Directions for the Multiplication Game SAPA Part C and E, Multiplication Game SAPA Part D 1st Draft, c. 1972 The Whirling Dervish The Bouncing Ball The Effect of Liquid
on Living Tissue Rate of Change Observing Growth from Seeds An Intro to
Scales Forces
on Static and Moving Objects Observations and Inferences Using Punch Cards to
Record a Classification Using Maps to Describe Location A Tree Diary SAPA Part D 2nd Draft Observations and Inferences The Bouncing Ball Rate of Change A Tree Diary An Intro to
Scales and
Scaling Observing Growth from Seeds (The Bean - It Came Up) Forces
on Static and Moving Objects Using Punch Cards to
Record a Classification Relative Position and Motion Inferring - The Water Cycle Predicting 4 - The Suffocating Candle The Big Cleanup Campaign 2 - D Representation of Spatial Figures Using Maps to Describe Location SAPA Part D Tryout Draft, 1972 Observations and Inferences The Bouncing Ball Measuring Drop by Drop Rate of Change Predicting 4 - The Suffocating Candle Forces
on Static and Movign Objects Observing Growth from Seeds Using Space /
Time Relationships -2-D Representation of Spatial Figures Using Punch Cards to
Record a Classification An Introduction to
Scales and
Scaling The Effect of Liquid
on Living Tissue Inferring - The Water Cycle Relative Position and Motion Using Maps to Describe Location The Big Cleanup Campaign A Tree Diary SAPA II Module (s), c. 1973 1, Tentative Format Sample, Perception of Color 9, Sets and Their Members 6, Direction and Movement, Draft 34, About How Far?
Matthias Mauch, from the School of Electronic Engineering and Computer Science at QMUL, lead author of the paper, said: «For the first
time we can measure musical properties in
recordings on a large
scale.
Yeakel created a timeline based
on existing
records from paleontology, archaeology, and art, which picks up about where the fossils leave off and zooms in
on a much shorter
time scale.
Given the complexity and
scale of the interfaces required, Shepard and his team believe that the degree of noninvasiveness required for human use within this aggressive
time frame can only be achieved with electrode architectures based
on stimulation and
recording at the brain surface.
I think it's really exciting to be able to
record this motion that's a thousand to a million
times faster than anything that happens in your computer, a motion that happens
on a length
scale of atoms — the angstrom length
scale.
The geological search for ancient life frequently zeroes in
on fossilized organic structures or biominerals that can serve as «biosignatures,» that survive in the rock
record over extremely long
time scales.
Most major animal groups appear for the first
time in the fossil
record some 545 million years ago
on the geological
time scale in a relatively short period of
time known as the Cambrian explosion.
On geologic
time scales, lakes — including those created by man - made concrete edifices — are temporary bodies, as ongoing geologic forces will eventually either break the earth and rock dams that hold them, or fill the basin with sediments forming a fresh geologic
record.
Scientific climate
records typically only date back 150 years, so this research will have an impact
on the Desert Southwest by showing what climate is capable of doing
on a longer
time scale.
The researchers are now working
on scaling up the number of electrodes so they can
record from multiple neurons at a
time, potentially allowing them to determine how different parts of the brain are connected.
CrossFit Sanitas — WOD Skill Pacing and Correct
Scaling Workout Of the Day R: 10 min Between Workouts Metcon (8 Rounds for reps) 8 Rounds of 75sec
on / 15sec off * pure pacing 32 Plates Steps 16 «no jump burpees» 8 Alt DB Snatch at 50 # / 35 # *
record how far you got
on each round * so reps not
time -LSB-...]
You may be able to qualify for credit thanks to this
scale — assuming, of course, that you have responsibly paid all your bills
on time and have no blemishes
on your
record.
«The fan movement and hype surrounding this game in the run - up to launch was almost unprecedented in
scale; we acknowledged early
on that the big question wasn't if it would break all -
time entertainment
records, but rather by how much.»
Regarding Bilbao, Gehry went
on record stating that he did not want this key gallery to be realized in such a gargantuan
scale, and it was Thomas Krens, the Guggenheim's director at that
time, who had the last word
on the non-human
scale of the space.
The geological
time scale is generally based
on distinct boundaries in the stratigraphic
record.
Well, it is unfortunate, though probably not coincidental, that the modern
record starts at the same
time that significant modifications of atmopsheric composition (greenhouse gases, aerosols etc.) were occuring
on a global
scale.
They have never had a major earthquake, at least in
recorded historical
times: I recall the one that hit Southern Oregon about 15 years ago as being in the high 5's
on the Richter
scale, with little damage and no injuries.
You yourself in your 2008/9 reconstructions provided an ensemble of reconstruction possibilities, yet now you seem fixated
on one model and one NH
record (derived using mainly RW data which clearly only had skill at
time -
scale > 20 years).
Disagreement among overlapping observations indicates unresolved drifts that suggest the TSI
record is not sufficiently stable to discern solar changes
on decadal
time scales.»
Much of data is contaminated; the ozone
record is dominated by large, natural fluctuations
on many
time scales...»
The challenges are significant, but the
record of progress suggests that within the next decade the scientific community will develop fully coupled dynamical (prognostic) models of the full Earth system (e.g., the coupled physical climate, biogeochemical, human sub-systems) that can be employed
on multi-decadal
time -
scales and at spatial
scales relevant to strategic impact assessment.
An increasing number of Holocene proxy
records are of sufficiently high resolution to describe the climate variability
on centennial to millennial
time scales, and to identify possible natural quasi-periodic modes of climate variability at these
time scales (Haug et al., 2001; Gupta et al., 2003).
Here we present the first benthic foraminiferal Mg / Ca - δ 18O
record from the Nordic seas in order to reconstruct the ocean circulation
on DO
time scales.
Paleontological
records indicate that global mean sea level is highly sensitive to temperature (7) and that ice sheets, the most important contributors to large - magnitude sea - level change, can respond to warming
on century
time scales (8), while models suggest ice sheets require millennia to approach equilibrium (9).
A cold phase transition, which the historical
record indicates can occur quite rapidly with large secular temperature changes
on a decadal
time scale, would truly be a catastrophe.
Furthermore, it is also the first
time that the Keeling Curve
recorded a 30 percent increase in carbon dioxide concentration
on a global
scale.
A new study using a high - resolution stalagmite
record from Australia with cave sites in southern China reveal a close coupling of monsoon rainfall
on both continents, with numerous synchronous pluvial and drought periods, suggesting that the tropical rain belt expanded and contracted numerous
times at multidecadal to centennial
scales.
Based
on local sea level
records spanning the last 2000 years, there is medium confidence that fluctuations in GMSL during this interval have not exceeded ~ ± 0.25 m
on time scales of a few hundred years.
''... worked with two sediment cores they extracted from the seabed of the eastern Norwegian Sea, developing a 1000 - year proxy temperature
record «based
on measurements of δ18O in Neogloboquadrina pachyderma, a planktonic foraminifer that calcifies at relatively shallow depths within the Atlantic waters of the eastern Norwegian Sea during late summer,» which they compared with the temporal histories of various proxies of concomitant solar activity... This work revealed, as the seven scientists describe it, that «the lowest isotope values (highest temperatures) of the last millennium are seen ~ 1100 - 1300 A.D., during the Medieval Climate Anomaly, and again after ~ 1950 A.D.» In between these two warm intervals, of course, were the colder temperatures of the Little Ice Age, when oscillatory thermal minima occurred at the
times of the Dalton, Maunder, Sporer and Wolf solar minima, such that the δ18O proxy
record of near - surface water temperature was found to be «robustly and near - synchronously correlated with various proxies of solar variability spanning the last millennium,» with decade - to century -
scale temperature variability of 1 to 2 °C magnitude.»
The satellite
record is really ONLY a blip
on the geologic
time scale of climate change.
-- then what explanation (scientific if possible) can be given for the fact that, last year alone, parts of the USA had the highest surface temperatures
on record, Australia had to rewrite their own temperature gauge because it was
recording temperatures which went, for the first
time in
recorded history, off the
scale they were so high and in the UK and Europe we experienced one of the longest heatwaves in decades?
Comparisons between these reconstructions and the output of Earth system models provide evaluation opportunities to improve our understanding of climate forcings
on time scales that are not adequately represented by the instrumental
record.
229
Time resolution on the scale of a year or two can be obtained from semi-fossil trees, e.g., Roig et al (2001) have a 1229 - year - long stretch of tree - ring widths from the middle of the last ice age at 40 ° S that shows abrupt droughts with abrupt recoveries (tenfold changes in yearly accumulation), but they are floating in absolute time and such local records can not yet be matched to events in the ice - core reco
Time resolution
on the
scale of a year or two can be obtained from semi-fossil trees, e.g., Roig et al (2001) have a 1229 - year - long stretch of tree - ring widths from the middle of the last ice age at 40 ° S that shows abrupt droughts with abrupt recoveries (tenfold changes in yearly accumulation), but they are floating in absolute
time and such local records can not yet be matched to events in the ice - core reco
time and such local
records can not yet be matched to events in the ice - core
records.
Changes
on a
time scale of 30 years would be hard to see in most proxy
records, particularly if they are preceded and followed by 20 - 50 year oscillations.
The Vostok
record of atmospheric CO2 and Antarctic climate is consistent with a view of the climate system in which CO2 concentration changes amplify orbitally - induced climate changes
on glacial / inter-glacial
time -
scales (Shackleton, 2000).
The palaeo climate
record is an important part of the skeptic argument against climate alarmism, specifically the absence of clear evidence of CO2 causation of warming and regulation of or correlation with temperature
on all
time scales.
There's no reason that the sensitivity
on time scales of tens of thousands of years (Vostok
record) should be the same as the sensitivity
on time scales of decades (modern
record).
These rapid changes in atmospheric CO2 and CH4 concentrations are also
recorded during the Heinrich Stadials of MIS 3, demonstrating an important mechanism that operates
on centennial
time scales during the glacial and deglaciation, which may point to important thresholds in the global carbon cycle.
The cosmogenic radionuclide
records have been low - pass filtered by a rectangular function in the frequency domain with different cut - off frequencies in order to minimise the solar influence and to investigate the
time scales on which we see common changes in the radionuclide production rates and the geomagnetic field intensity reconstructions.
What may actually be relevant is average trend
on multidecadal
time scales, which for the entire satellite
record is about 3 mm / yr.
Since ocean water can't travel
on the
time -
scales predicated by the models the scientists conceived to
record these measurements (less than 10 - 20 years), they think that energy is transferred instead along a deep pressure wave.
Using these methods, the authors conclude that «the investigated Svalbard and Greenland temperature
records show high natural variability and exhibit long - term persistence, although
on different
time scales».
A study of observational data sets from the World Glacier Monitoring Service (WGMS) concluded that «rates of early 21st - century mass loss are without precedent
on a global
scale, at least for the
time period observed and probably also for
recorded history» (Zemp et al. 2015).
Observed
records of Atlantic hurricane activity show some correlation,
on multi-year
time -
scales, between local tropical Atlantic sea surface temperatures (SSTs) and the Power Dissipation Index (PDI)-- see for example Fig. 3
on this EPA Climate Indicators site.
All series have been smoothed with a Gaussian - weighted filter to remove fluctuations
on time scales less than 30 years; smoothed values are obtained up to both ends of each
record by extending the
records with the mean of the adjacent existing values.
Now that all the
records have been shown to coincide, «it suggests that the whole world hydrologic cycle varies in unison,
on a pretty rapid
time scale,» said Gisela Winckler, a Lamont - Doherty geochemist, and lead author of the paper.
Supporting these fast - growing companies to ensure that they continue to
scale — and eventually exit — here should be a strategic priority, particularly at a
time when a new generation of fast - growth providers, such as Prowler.io and Benevolent AI in life sciences, and ThoughtRiver in legal tech, is emerging to build
on an impressive track
record of AI innovation in the UK, from Alan Turing to DeepMind.