Sentences with phrase «affect lower frequency»
Smaller beams would control higher frequency waves, and larger beams would affect lower frequency waves.
https://www.sciencedaily.com/ Not exact matches
Even sound can affect us high and low frequencies.
Vitamin D deficiency was associated with higher prevalence of coronary artery disease, with a 32 percent higher occurrence in patients with the lowest vitamin D levels and a near 20 percent higher frequency of severe disease affecting multiple vessels.
Sounds with high volume and rich frequency spectrum affect the majority of the boids, while low volume level and less quantity of active frequencies produces subtle visual variations and a slower graphic evolution.
And it is high - frequency waves, with short periods of vibration of less than one second, that tend to affect low - story buildings.
Additionally, in zebra finches (Taeniopygia guttata), which produce a wide range of broad - band note types, expansion of the OEC has also been found to affect frequency patterns by shifting energy to relatively lower frequencies while amplitude generally increases (Ohms et al., 2010b).
So we are working with sound and the components of frequency to affect different functions within our lives — from the low to the mid to the high frequencies — in very specific ways, but then there are other features, like the tempo, the pace of the music, right?
The voltage being a little low (13.75 is not low enough to be considered a problem in any case) is not going to affect their RPM reading - as it's the frequency of voltage variations that is measured to get your RPMs.
0.1.3 parallel evolution routine affecting the random numbers generation stream contour line = locate the streamline of local maximums inside the scanned hardware current flow points to matrix, automatic routine virtual frequency parameter inline with triple of the interruption frequency for random number request, on idle sustaining the previous frequency divided by the power of lowest amplitude (that of the tangent point (touching point of the actual scan) of the streamline nearest to the component location inside the matrix)
0.1.2 parallel evolution routine affecting the random numbers generation upon adjusting the cooling power along the stream contour line by one unit toward the power maximums of 999 units — if touched then set the power at the middle of the coverage band and rescale units by transposition of the position inside the coverage band, automatic routine virtual frequency parameter inline with twice of the interruption frequency for random number request, on idle sustaining the previous frequency divided by the power of lowest amplitude (that of the tangent point (touching point of the actual scan) of the streamline nearest to the component location inside the matrix)
0.1.4 parallel evolution routine affecting the random numbers generation upon adjusting the current - balance protection along the stream contour line by one unit toward the power minimums of 666 units — if touched then set the power at the middle of the coverage band and rescale units by transposition of the position inside the coverage band, automatic routine virtual frequency parameter inline with four times of the interruption frequency for random number request, on idle sustaining the previous frequency divided by the power of lowest amplitude (that of the tangent point (touching point of the actual scan) of the streamline nearest to the component location inside the matrix)
The Pug, for example, has a significant frequency of affected dogs, while the Siberian Husky has a relatively low frequency of dysplasia.
As long as the frequency of a gene for a recessive disorder remains low in the population, the particular gene may be passed along for many generations before by chance 2 carriers are mated and affected individuals are born.
Working with sound, he creates reactive environments with sensors and audio controllers that use both low and high frequency sine waves and vibration generators to physically affect people and spaces.
In the tropics, these Atlantic / Pacific differences modulate the global Walker circulation on decadal timescales and then affect the low - frequency variability of the high - pressure ridge off the California coast through atmospheric teleconnections.
An important acoustic study, just published, concludes that «enough evidence and hypotheses have been given herein to classify LFN [low - frequency noise] and infrasound as a serious issue, possibly affecting the future of the [wind] industry» (4).
Climate change is expected to shift frequency statistics for weather and climate events, as illustrated in Figure 2.10, in ways that affect the likelihood of extreme events on the tails of the distribution, either the high side («extremely hot» for example) or the low side («extremely cold»).
-LSB-...] low frequency noise from wind turbines causes significant human health problems, interferes with whale and porpoise navigational and food - finding systems, and affects other wildlife -LSB-...]
These megaturbines are reported to be emitting more low - frequency noise (LFN) than smaller models, and this causes more people to be affected, and over greater distances, by the usual symptoms of the wind turbine syndrome: insomnia, headaches, nausea, stress, poor ability to concentrate, irritability, etc, leading to poorer health and a reduced immunity to illness.
«However, it is physically and biologically plausible that low frequency noise generated by wind turbines can affect people, and the author puts forward several possible theories regarding this.»
I have heard a similar range and pattern of symptoms from residents affected by industrial infrasound and low frequency noise from other sources including gas fired power stations (Uranquinty) and open cut coal mining (residents formerly from Wollar and the Cumbo Valley in the Upper Hunter).
In bright light, noise is very low, but in low light, high - frequency noise, including a chromatic element, is visible, which affects the overall score.
Further, it may be that BGM affect is closely tied to the results of monitoring (highs and lows), but not necessarily tied to the process or frequency of monitoring.
Using structural equation modeling, emotion - related variables were identified that were common to both anxiety and depression (poor emotion awareness, emotion dysregulation, poor emotion regulation coping, high frequency of negative affect), most strongly related to depression (low frequency of positive affect), and most distinctly associated with anxiety (frequency of emotion experience, somatic response to emotion activation).