Explore
how atmospheric conditions influence the weather.
Sometimes, data that is needed to decipher
how atmospheric conditions affected a particular location and case is not available.
The scientists fed information about Salt Lake City's estimated CO2 emissions and local weather conditions into a model that simulated
how atmospheric conditions would mix and distribute the gas.
Not exact matches
In advancing these theories they disregard factors universally admitted by all scientists — that in the initial period of the «birth» of the universe,
conditions of temperature,
atmospheric pressure, radioactivity, and a host of other catalytic factors were totally different than those existing presently, including the fact that we don't know
how single atoms or their components would bind and consolidate, which involved totally unknown processes and variables, as single atoms behave far differently than conglomerations of atoms.
«We're really interested in
how animals are sensing and using and adapting to changes in
atmospheric conditions,» says University of Oklahoma aeroecologist Jeffrey Kelly.
That release disrupts typical
atmospheric conditions, thereby affecting
how the jet stream behaves.
Because Mars»
atmospheric pressure at ground level is comparable to that of Earth's atmosphere at 100,000 feet — a mere 1.4 percent of Earth's air pressure at sea level — an aircraft that can fly in such
conditions will help engineers learn
how to design aircraft to roam Martian skies.
He and Abordo, a mathematics major at the time, jumped at the chance to study
how plants adjust their stomata in response to different
atmospheric conditions.
Scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) and NASA are using X-rays to explore, via 3 - D visualizations,
how the microscopic structures of spacecraft heat shield and parachute materials survive extreme temperatures and pressures, including simulated
atmospheric entry
conditions on Mars.
The two got up before dawn every weekday over the summer to collect leaves from 15 tree species and take them back to the lab, where they used gas exchange equipment to measure
how the leaves responded to different light and
atmospheric conditions.
The research team led by Yoshitaka Oishi of Fukui Prefectural University and Professor Tsutomu Hiura of Hokkaido University's Field Science Center for Northern Biosphere studied
how bryophytes can be a tool for evaluating complex
atmospheric conditions in urban areas.
A 2015 USDA report (Brown et al. 2015) on
how climate affects agriculture delineates the sensitivities of specialty crops to many climate components (e.g., temperatures,
atmospheric CO2 levels, water supply, cloud and light
conditions, high winds and other extreme
conditions).
Because this climate sensitivity is derived from empirical data on
how Earth responded to past changes of boundary
conditions, including
atmospheric composition, our conclusions about limits on fossil fuel emissions can be regarded as largely independent of climate models.
This is inherent due to several factors, which include, but are not limited to,
atmospheric conditions (temp, barometric readings, etc), testing
conditions (do they place a fan in front of the radiator,
how tight did they tie down the vehicle, etc), type of dyno (eddy current or acceleration), or manufacturer of the dyno itself (Mustang, Dynojet, Superflow, etc.).
In addition to inviting contemporary artists to be involved in the project, historical representations of
atmospheric conditions will be exhibited that illustrate
how the idea of «air» has changed quite dramatically over the last few centuries.
22 Weather Maps Weather maps can be used to show
how changes in
atmospheric conditions can influence local weather.
Weather maps can be used to show
how changes in
atmospheric conditions can influence local weather.
To figure out whether climate change will cause more intense and frequent tornadoes requires asking lots of smaller questions about the
atmospheric conditions necessary to produce tornadoes and to determine
how climate change will affect each of these various
atmospheric conditions that combine to propagate tornadoes.
Efforts are currently underway to explore the range of potential future
atmospheric conditions and
how they might influence the health of the ozone layer.
As we shall see there are certain aspects of
atmospheric conditions necessary to produce violent tornadoes that climate change is enhancing while there are other
atmospheric conditions necessary to form tornadoes about which scientists are uncertain exactly
how a warming world will affect them.
Combining the limitations of this data with the (interannual) variability in
atmospheric and oceanic
conditions between now and September 2008 leaves a wide range of scenarios open for
how sea ice
conditions may develop throughout the summer.
What's new here is the application of a detailed version of one of the world's premier climate system models, the CCSM, to understand
how rising levels of
atmospheric carbon dioxide affected
conditions in the world's oceans and land surfaces enough to trigger a massive extinction hundreds of millions of years ago.»
How about «I took a well - known result of
atmospheric dynamics, driven by non-equilibrium differential heating caused by the GHG GHE and claimed that it is a static feature of an adiabatically isolated atmosphere, ignoring the fact that the proposed thermal profile violates the second law of thermodynamics for the specific
conditions of long relaxation times and equilibrium
conditions I propose».
Because this climate sensitivity is derived from empirical data on
how Earth responded to past changes of boundary
conditions, including
atmospheric composition, our conclusions about limits on fossil fuel emissions can be regarded as largely independent of climate models.
Carrying out
atmospheric measurements often entails having to consider
how representative measurements taken in a single location are, and whether local
conditions, such as landforms, affect observations.
The most likely candidate for that climatic variable force that comes to mind is solar variability (because I can think of no other force that can change or reverse in a different trend often enough, and quick enough to account for the historical climatic record) and the primary and secondary effects associated with this solar variability which I feel are a significant player in glacial / inter-glacial cycles, counter climatic trends when taken into consideration with these factors which are, land / ocean arrangements, mean land elevation, mean magnetic field strength of the earth (magnetic excursions), the mean state of the climate (average global temperature), the initial state of the earth's climate (
how close to interglacial - glacial threshold
condition it is) the state of random terrestrial (violent volcanic eruption, or a random
atmospheric circulation / oceanic pattern that feeds upon itself possibly) / extra terrestrial events (super-nova in vicinity of earth or a random impact) along with Milankovitch Cycles.
But it demonstrates
how changed equilibrium
conditions could have had the observed recent effect on
atmospheric CO2 concentration whether or not there was a change in temperature and whether or not the anthropogenic CO2 emission existed.
If the heat isn't there — no super typhoon will form, no matter
how supportive the
atmospheric conditions are.
The debate is not
how gases behave in isolation in laboratory
conditions but rather
how the
atmospheric system behaves as a whole with all its complexity and nuances, and it is because of this that many are skeptical as to whether in reality there is any significant «greenhouse» effect.
Moreover, since DLR varies widely according to
atmospheric conditions, it is very important to achieve enough coverage to be sure that we understand
how the localized measurements can be generalized to the global scale.
It's the Earth's history -
how the Earth responded in the past to changes in boundary
conditions, such as
atmospheric composition.