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iPhemeris uses the Swiss Ephemeris, based on the Jet Propulsion Laboratories (JPL) DE 430/431 with sub-second precision.Monthly, Tabular style Ephemeris ( Longitude) for 7700 years (4700 BC to 2995 AD).Wheel can display the Bounds, Terms or Limits: Egyptian or Ptolemaic.Decanates shown on wheel can display Traditional or Modern Rulers.Part of Fortune - Two calculations styles.Other Points: Ascendant, Descendant, Mid-Heaven, IC, Vertex, Earth, Part of Fortune, Black Moon.Independently set Orbs for Applying and Separating aspects.Declination Aspects: Parallel, Contra-parallel.iCloud - Use iCloud to store and share charts between all your devices & computers running iPhemeris.Sky Now - A continuosly updating chart (every 5 seconds) for any location.House Systems: Placidus, Equal, Koch, Regiomantanus, Campanus, Meridian, Morinus, Porphyry, Topocentric, Whole, Vedic, Alcabitius, Aries 0, Solar House.Rectification Tools - Step charts forward & back in time.Chart Notes - Write and store notes for each chart.List of Points with House, Declination & Latitude.Choose Planets, Asteroids & Points displayed on Charts wheels and Reports independently.Customize wheel style, includes French wheel style and other wheel styles preferred in Europe.Composite Charts for Synastry (Mid-point).Types of Astrological Chart Wheels in iPhemeris:.
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If you're serious about Astrology and need the best, iPhemeris is what you've been looking for! Stop carrying all those books around and get iPhemeris for your iPhone, iPad & Mac OSX! Ephemeris V2 2 For Macs Has a noisy situation ever left you grimacing and clutching your ears? Why do some sounds seem so loud? Many factors influence how loud a sound seems, including how long it lasts, the sound’s frequencies (or pitches), and the environment in which you hear the sound.IPhemeris was the first Astrology App for iPhone and has been continuously updated and improved since its introduction in 2008. Another important and easily measured factor is sound intensity, or volume. We measure sound intensity (also referred to as sound power or sound pressure) in units called decibels. An audiometer is a device that measures how well a person can hear certain sounds.ĭecibels (dB) are named in honor of Alexander Graham Bell, the inventor of both the telephone and the audiometer. While many standard measuring devices, such as rulers, are linear, the decibel scale is logarithmic.Ī modern version of it is still used today to diagnose hearing loss.ĭecibels are different from other familiar scales of measurement. This kind of scale better represents how changes in sound intensity actually feel to our ears. To understand this, think of a building that is 80 feet tall. If we build up another 10 feet, the building will be 12.5 percent taller, which would seem just slightly taller to us this is a linear measurement. Using the logarithmic decibel scale, if a sound is 80 decibels, and we add another 10 decibels, the sound will be ten times more intense, and will seem about twice as loud to our ears. Sometimes we use different versions of decibels. A-weighted decibels, or “dBA,” are often used when describing sound level recommendations for healthy listening. While the dB scale is based only on sound intensity, the dBA scale is based on intensity and on how the human ear responds.
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Because of this, dBA gives us a better idea of when sound can damage your hearing. The cochlea is a snail-shaped organ inside your inner ear that allows you to hear. The cochlea can respond to a certain range of frequencies, or pitches of sound. (Read more about how we hear or watch a video on how sound travels to the brain.) The cochlea responds best to frequencies in the range of human speech. It doesn’t respond as well to frequencies that are much higher or lower. When sounds contain frequencies are too high or too low for us to hear -as in ultrasonic and infrasonic sounds -our cochlea doesn’t respond at all.
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In the frequencies that our ears respond to best, measurements for dBA are just as high as they are in dB. For instance, the high-pitched E string on a violin has very similar dB and dBA levels.
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However, a lower frequency sound that isn’t processed as effectively through the ear will have a lower output level.