Sentences with phrase «as changes in the humidity»
Not exact matches
Buying a new crib could protect your baby from such hidden dangers as drop sides, slats, or hardware that might have been weakened by rough use, as well as loose hardware or glue joints caused by changes in humidity during storage.
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As the trains left the cold air and entered the warm tunnel, the change in humidity caused the electrical systems to fail.
Bees use their antennae to smell, taste, and hear, as well as to detect changes in temperature, wind, and humidity.
Malaria is also affected by shifts in seasonal rainfall and humidity, as well as land - use change and urbanization.
This effect allows researchers to detect changes in humidity as small as 0.1 percent.
These images depict how the photonic sensor translates finger movements into color changes, as the photonic crystal reacts to the change in local humidity caused by the approach of the finger without direct contact.
Second, we examined the change in frequency of occurrence of unusually hot, dry or windy conditions by comparing the number of years that maximum temperature, rain - free days or wind speed was > 1 s.d. above the mean or when minimum relative humidity was < 1 s.d. from the mean in 1996 — 2013, as compared with the number of similar events observed in 1979 — 1996.
As the Keck telescopes operate, they are constantly jostled by things like wind, vibrations from machinery, and changes in temperature and humidity.
The OvWatch measures changes in perspiration and requires the user to attach a sticky patch to their skin and wear a watch every day, except during times of possible accumulation of moisture on the skin, such as during periods of exercise, heat, or humidity.
It was not until I started comparing the daily temperature range between a Desert (or recently cleared land) as opposed to a Rain Forest that I found out how important that change in the humidity is.
I also usually try to include the change in the Relative Humidity, (if it can be found), in my graphs as humidity plays a part in the atmospheric heat Humidity, (if it can be found), in my graphs as humidity plays a part in the atmospheric heat humidity plays a part in the atmospheric heat content.
Some examples are materials that can remove humidity without lowering temperatures below uncomfortable levels, sensors that can control air filters as needed in order to remove harmful air particles, and building facades that adjust to changes in outdoor temperatures and sunlight.
AIR MASSES A large body of air (thousands of miles) Changes in weather are caused by movements of air masses As an air mass moves away, temp & humidity.
Even in areas where precipitation does not decrease, these increases in surface evaporation and loss of water from plants lead to more rapid drying of soils if the effects of higher temperatures are not offset by other changes (such as reduced wind speed or increased humidity).5 As soil dries out, a larger proportion of the incoming heat from the sun goes into heating the soil and adjacent air rather than evaporating its moisture, resulting in hotter summers under drier climatic conditionsas reduced wind speed or increased humidity).5 As soil dries out, a larger proportion of the incoming heat from the sun goes into heating the soil and adjacent air rather than evaporating its moisture, resulting in hotter summers under drier climatic conditionsAs soil dries out, a larger proportion of the incoming heat from the sun goes into heating the soil and adjacent air rather than evaporating its moisture, resulting in hotter summers under drier climatic conditions.6
But, just in case you were semi-serious: With oceans covering 70 % of the earth's surface, you could never change atmospheric humidity — water vapor pressure is a function of atmospheric temperature, increasing as temperature rises.
VPD, calculated as est (1 - RH), is changed with both relative humidity (RH), a moisture index, and changes in the saturated vapor pressure (est), a temperature index.
Models assume that relative humidity will stay the same over the tropics as the world warms, that clouds are a positive feedback and not a negative one, and that cloud changes are a feedback and not a forcing in their own right.
A slight change of ocean temperature (after a delay caused by the high specific heat of water, the annual mixing of thermocline waters with deeper waters in storms) ensures that rising CO2 reduces infrared absorbing H2O vapour while slightly increasing cloud cover (thus Earth's albedo), as evidenced by the fact that the NOAA data from 1948 - 2008 shows a fall in global humidity (not the positive feedback rise presumed by NASA's models!)
In addition, since over the tropics the humidity is quite high, adding clouds doesn't change the downwelling radiation as much as it would in the deserIn addition, since over the tropics the humidity is quite high, adding clouds doesn't change the downwelling radiation as much as it would in the deserin the desert.
The lapse rate, strictly speaking, applies to elevation above ground level (which is strongly affected by local atmospheric conditions such as absolute humidity and the rate of change of the absolute humidity in space and time) and this should be considered when making certain kinds of comparisons.
Is there a change in humidity from such sewer systems inside the city as opposed to outside of it?
And here we are at impasse as long as we do not come to a consensus on the question on «how the evaporation process is responding to the changes in both the diurnal irradiation and the diurnal variation of temperature and humidity of the air above».
For the authors of the paper to assess the spectral results against theory they needed to know the atmospheric profile of temperature and humidity, as well as changes in the well - studied trace gases like CO2 and methane.
In the real world one can influence the rate of evaporation either by reducing pressure or by increasing the energy content of the water (amongst other ways such as increased air movement and humidity changes).
Nevertheless, it may be difficult to extrapolate our results to natural conditions as we (1) have not considered potential changes in biotic interactions (Sentis et al., 2013), (2) did not quantitatively assess changes in host plant quality due to heat stress and only included low relative humidity as an additional factor (Bauerfeind and Fischer, 2013a), (3) did not consider effects of different host plants (Bauerfeind and Fischer, 2013b), and (4) did not apply temperature variation in the adult stage.
Temperature changes induced by sun and oceans drive air circulation changes which drive changes in every aspect of climate including convection, conduction, evaporation, condensation, precipitation, windiness, cloudiness, albedo and humidity as regards both quantities and distribution.
In this instance (NCEP Reanalysis), the dramatic decrease in tropical specific humidity (their Figure 3 center) appears to extend into and dominate the midlatitude changes, as defined by the authorIn this instance (NCEP Reanalysis), the dramatic decrease in tropical specific humidity (their Figure 3 center) appears to extend into and dominate the midlatitude changes, as defined by the authorin tropical specific humidity (their Figure 3 center) appears to extend into and dominate the midlatitude changes, as defined by the authors.
Water vapour does in fact change (roughly keeping relative humidity, as opposed to specific humidity, constant) and this has been shown in the real world as a function of volcanic cooling (Soden et al, 2002) and for longer term trends (Soden et al, 2005, discussed here), and is well reproduced in climate models.
[1] Climate change creates new risks for human exposure to vector - borne diseases such as Zika, particularly in the United States where rising heat and humidity are increasing the number of days annually in which disease vectors thrive.
Isaac — Among unsettled issues is the change in upper tropospheric humidity with warming — specific humdity increases, but there is conflicting information as to whether this increase is sufficient to maintain a near - constant relative humidity (RH — e.g. Minschwaner and Dessler 2004 as compared with Soden et al 2005).
As the weather changes, so does the relative humidity in your home and in the moisture content of the wood in your furniture.