Sentences with phrase «moving air rises»

Once the elemental habitats are created, their inhabitants move in: waters give rise to swimming creatures, air gives rise to flying creatures, and earth gives rise to walking creatures.

This interplay between climate and wind can lead to sea level rise simply by moving water from one place in the ocean to another, said Greene — no warming of the air, or of ocean temperatures required.

The study also shows that the thin air at higher altitudes helps birds fly faster, and that the faster a bird rises upward in the air, the slower they move forward.

As the air rises and moves poleward, it dries, cools, sinks, and returns back to the surface completing this atmospheric cycle both north and south of the equator.

For it to rise, air above it must disperse, ie, move either north or south.

The cold jet stream rise into Arctic cold air and then its dip down over the midwest isn't moving East so the jet stream behind it is stacking up causing it to fold down into the tropics?

A parcel of air picking up water vapor at (near) the ITCZ moves poleward as well as rising.

, lightning related insurance claims, Lyme disease, Malaria, malnutrition, Maple syrup shortage, marine diseases, marine food chain decimated, Meaching (end of the world), megacryometeors, Melanoma, methane burps, melting permafrost, migration, microbes to decompose soil carbon more rapidly, more bad air days, more research needed, mountains break up, mudslides, next ice age, Nile delta damaged, no effect in India, nuclear plants bloom, ocean acidification, outdoor hockey threatened, oyster diseases, ozone loss, ozone repair slowed, ozone rise, pests increase, plankton blooms, plankton loss, plant viruses, polar tours scrapped, psychosocial disturbances, railroad tracks deformed, rainfall increase, rainfall reduction, refugees, release of ancient frozen viruses, resorts disappear, rift on Capitol Hill, rivers raised, rivers dry up, rockfalls, rocky peaks crack apart, Ross river disease, salinity reduction, Salmonella, sea level rise, sex change, ski resorts threatened, smog, snowfall increase, snowfall reduction, societal collapse, songbirds change eating habits, sour grapes, spiders invade Scotland, squid population explosion, spectacular orchids, tectonic plate movement, ticks move northward (Sweden), tides rise, tree beetle attacks, tree foliage increase (UK), tree growth slowed, trees less colourful, trees more colourful, tropics expansion, tsunamis, Venice flooded, volcanic eruptions, walrus pups orphaned, wars over water, water bills double, water supply unreliability, water scarcity (20 % of increase), weeds, West Nile fever, whales move north, wheat yields crushed in Australia, white Christmas dream ends, wildfires, wine — harm to Australian industry, wine industry damage (California), wine industry disaster (US), wine — more English, wine — no more French, wind shift, winters in Britain colder, wolves eat more moose, wolves eat less, workers laid off, World bankruptcy, World in crisis, Yellow fever.

Air pressure changes, allergies increase, Alps melting, anxiety, aggressive polar bears, algal blooms, Asthma, avalanches, billions of deaths, blackbirds stop singing, blizzards, blue mussels return, boredom, budget increases, building season extension, bushfires, business opportunities, business risks, butterflies move north, cannibalistic polar bears, cardiac arrest, Cholera, civil unrest, cloud increase, cloud stripping, methane emissions from plants, cold spells (Australia), computer models, conferences, coral bleaching, coral reefs grow, coral reefs shrink, cold spells, crumbling roads, buildings and sewage systems, damages equivalent to $ 200 billion, Dengue hemorrhagic fever, dermatitis, desert advance, desert life threatened, desert retreat, destruction of the environment, diarrhoea, disappearance of coastal cities, disaster for wine industry (US), Dolomites collapse, drought, drowning people, drowning polar bears, ducks and geese decline, dust bowl in the corn belt, early spring, earlier pollen season, earthquakes, Earth light dimming, Earth slowing down, Earth spinning out of control, Earth wobbling, El Nià ± o intensification, erosion, emerging infections, encephalitis,, Everest shrinking, evolution accelerating, expansion of university climate groups, extinctions (ladybirds, pandas, pikas, polar bears, gorillas, whales, frogs, toads, turtles, orang - utan, elephants, tigers, plants, salmon, trout, wild flowers, woodlice, penguins, a million species, half of all animal and plant species), experts muzzled, extreme changes to California, famine, farmers go under, figurehead sacked, fish catches drop, fish catches rise, fish stocks decline, five million illnesses, floods, Florida economic decline, food poisoning, footpath erosion, forest decline, forest expansion, frosts, fungi invasion, Garden of Eden wilts, glacial retreat, glacial growth, global cooling, glowing clouds, Gore omnipresence, Great Lakes drop, greening of the North, Gulf Stream failure, Hantavirus pulmonary syndrome, harvest increase, harvest shrinkage, hay fever epidemic, heat waves, hibernation ends too soon, hibernation ends too late, human fertility reduced, human health improvement, hurricanes, hydropower problems, hyperthermia deaths, ice sheet growth, ice sheet shrinkage, inclement weather, Inuit displacement, insurance premium rises, invasion of midges, islands sinking, itchier poison ivy, jellyfish explosion, Kew Gardens taxed, krill decline, landslides, landslides of ice at 140 mph, lawsuits increase, lawyers» income increased (surprise surprise!)

Because of it, a simple single cell system (Figure 2) with heated air rising at the Equator moving to the Poles, sinking and returning to the Equator, breaks up.

Low pressure systems develop under these conditions of rising warm air, which causes frontal systems to move, mixing cold and warm air masses.

This is where moist unstable air rises above the Earth's thermal equator and moves towards the horse - latitudes located at 30 degrees north and south of the Equator.

At the equator: direct solar energy; warm temps; low pressure air rises and moves towards the poles.

So, if air rises, it must lose temperature as a consequence of moving against gravity.

There is contamination of the air in the bubble by water; different results are obtained if the ice is crushed or melted to obtain the air sample; it takes decades for the air bubble to form; the raw data was smoothed out by a 70 year moving average that removed the great annual variability found in the 19th century and Stomata Index (SI) records; closer examination revealed a major flaw in the hypothesis because temperature rises before CO2.

He says to take examples from real world, (as he's done with the example of packets of air rising which is already well known and which is what gives us our weather), but on a non-rotating Earth it's the difference of temperature provided by the Sun between the equator and the poles which sets up the basic pattern of packets of air on the move (which is wind, wind is volumes of air on the move) from the equator to the poles where they cool and are drawn back to the equator where the heating cycle begins again.

There would therefore be heat moved from the equator (where the hot air rises) towards the poles (where it cools and becomes less dense)-- errr, depending on the shape of the planet.

At Tmax, for example, there has been a steady T rise as the sun moves higher in the sky, the rise helped by convection of air with hot packets in it surrounding the site, held back if frost has formed overnight, complicated if there is snow around and water phase change effects need consideration, hindered or lagged by the thermal inertia of the screen surrounding the thermometer as the screen heats up.

Firstly convection of the real gas Air which when heated becomes lighter than air and rises taking away heat from the surface and as it rises heavier colder air above flows beneath to take its place; these are called winds, volumes of air on the moAir which when heated becomes lighter than air and rises taking away heat from the surface and as it rises heavier colder air above flows beneath to take its place; these are called winds, volumes of air on the moair and rises taking away heat from the surface and as it rises heavier colder air above flows beneath to take its place; these are called winds, volumes of air on the moair above flows beneath to take its place; these are called winds, volumes of air on the moair on the move.

In an atmosphere with moving gases, hot air masses rise and are radiating more strongly than the gases at the altitude they are moving through.

The logic in your first comment can be used to prove that air bubbles can not rise in water, since that would oblige some water to move down.

At the 60th parallel, the air rises to the tropopause (about 8 km at this latitude) and moves poleward.

A similar air mass rising on the other side of the equator forces those rising air masses to move poleward.

The molecule will first use the heat energy in expansion and on cooling will again condense and sink because heavier, and it will cool when its heat expanded volume flows to colder air which absorbs the heat, the internal kinetic energy of vibration, which if strong enough will pass that heat to another colder (which is why visible light is not a thermal energy, it is not powerful enough to move a molecule of matter into vibration, it takes the bigger heat wave, longwave infrared, aka thermal infrared called that because it is the wavelength of heat)-- that is how convective heating warms the fluid gas air in a room, by circulation, in the rise and fall of molecules as they expand and condense, not by heat energy propelling molecules to hit other molecules..

They use the energy in expansion which makes them lighter, they don't move anywhere unless the amount of heat energy is sufficient to make them lighter than air in which case they will rise through the fluid gas around them, and, the molecules around them which are colder therefore heavier will sink below them.

And as the oceans rise due to the other greenhouse gasses, more of the water moves into the air, the climate becomes less stable, and traps more heat.

Their disciplines barely rise above the level of primitive Greek physics (you throw a ball in the air, it will probably fall back down, but we have no idea know how fast it will be moving).

When warm, low - pressure air rises, cool, high - pressure air seizes the opportunity to move in underneath it.

High Ceilings with Transoms Above Doors: High celings help to move hot air upward (remember, hot air rises and cold air sinks...).

The CO2 absorption / emission is going on everywhere to move heat into the nitrogen / oxygen everywhere too, creating masses of air that rise and are displaced by cooler air, pushing the warmer air still higher up, where eventually heat is emitted into outer space.»

Because of it a simple single cell system -LRB--RRB- with heated air rising at the Equator moving to the Poles, sinking and returning to the Equator, is broken up.

By moving out of the high rise apartments, condominiums and densely packed townhouses to the breath of fresh air single family home with a yard, a new world awaits.