A bare bones take on design in biology?

 

On the one God and his only Son.

 

Hardwired for music?

 The Human Mind Is Wired for Music: How Did That Come About?

Eric Hedin

The appreciation of the human mind for music knows no limits. A quick look at a list of the most watched YouTube videos shows that 90 percent of the top thirty are songs, with total views for each ranging from 3 billion to 13 billion.1 Most of us can correctly remember melodies and lyrics learned in childhood, even years after last having heard them. While speaking words effectively communicates information, we seldom remember even a short speech verbatim. It seems that the human mind is wired for music.

What’s the evidence for design in the linkage between mind and music? We could start by observing that from an evolutionary perspective, music is not something we grew up with ancestrally. Beyond the calls and trills of birds, nature as we know it provides few sounds that resemble even the simple melodies of children’s nursery songs. Is our ability to appreciate music akin to our ability to comprehend mathematics? Again, from an evolutionary standpoint, human mathematical ability far exceeds any adaptation we might have from needing to count the number of ducks in the pond.

Benefits for the Soul

The benefits of music for the human soul and its effects on our emotions are well-documented.

Music is ubiquitous across human cultures — as a source of affective and pleasurable experience, moving us both physically and emotionally…2

Music has a bewitching power when it comes to our thoughts and emotions….The psychology of music has been recognized and studied since ancient times, with Plato theorizing that different styles of music stirred different emotions in listeners.3

Plato’s thoughts on music are confirmed by recent scientific studies. UC Berkeley researchers studying 2500 people from the United States and China have identified 13 different emotions evoked by music, from amusement to annoyance, and sadness to triumph.4

More than just stimulating emotions, music’s influence on us extends to deeper levels as well. 

The use of music in the realm of medicine is impressively far-reaching. It’s been known to assist in therapy and healing for a wide range of illnesses and conditions.5

Music therapy can minister to people with mental health issues and help to regulate moods and reduce stress.

Is the connection between mind and music limited to humans?

One context in which music therapy may be used to enhance animal welfare is to alleviate stress in domestic environments.6

Testimony to Human Exceptionalism?

However, a survey of the effects of varieties of music on different animals reveals inconsistent results. This may indicate that animal minds perceive and process musical sounds categorically unlike humans. Rats, however, do respond positively to Mozart.7

Is there anything inherent in nature that could suggest the connection between music and mind? Music is based on vibrations at varying frequencies, and vibrations are pervasive in nature. Most natural frequencies exist at levels far beyond the range of human hearing and occur apart from sound waves. All atoms have electrons that orbit with varying frequencies, exemplified by the hydrogen atom in its ground state for which the electron orbits about 6.57×1015 times per second, in the range of visible light frequencies (an electromagnetic wave), or approximately a trillion times higher than the frequency of sound waves humans can hear.

Planets orbit around the sun with much lower frequencies, approximately one billionth of an orbit per second, corresponding to a frequency about a trillion times lower than the frequency range of human hearing. The rotation rates of collapsed cores of massive stars, known as pulsars, include many millisecond pulsars, whose rotation frequency would be audible in the frequency range of human speech, if converted into a sound wave. 

Design in Hearing

Whale song” also occurs within the range of human hearing but went unnoticed by humans until its discovery in 1967 by marine biologist Roger Payne.8

The whale song is considered one of the most complex non-human forms of communication created by any species in the animal kingdom. The whale song carries a predictable melodic tone and the notes are repeated over and over again like a chorus.9

In our discussion of the connection between music and mind, the biocomplexities of our auditory senses certainly play a key role and the documented evidence for design in hearing is profound. Our deep emotional and aesthetic appreciation for music adds to the argument that we are more than unguided outcomes of natural forces that evolved the ability to hear because it imparted to us a survival advantage. Attempting to reduce our love for music — the mystery of music — to an evolutionary adaptation has a dissonant edge to discerning ears.

On Darwinism's dependency on engineerless engineering.

 Dr. Glicksman: How Life Leverages the Laws of Nature

Andrew McDiarmid

Left to their own devices, the natural result of physics and chemistry is death, not life. So how are we still breathing? On this ID the Future, host Eric Anderson concludes his conversation with physician Howard Glicksman about some of the remarkable engineering challenges that have to be solved to produce and maintain living organisms such as ourselves. Glicksman is co-author with systems engineer Steve Laufmann of the recent book Your Designed Body, an exploration of the extraordinary system of systems that encompasses thousands of ingenious and interdependent engineering solutions to keep us alive and ticking. In the “just so” stories of the Darwinian narrative, these engineering solutions simply evolved. They emerged and got conserved. Voila! But it takes more than the laws of nature to keep us from dying. 

In Part 1, Glicksman discussed how two laws of nature — diffusion and osmosis — must be innovated by living systems to avoid cell death. In this episode, Glicksman provides another example: how we regulate the flow of water and blood through our bodies without the excess leakage or shrinkage that can lead to cell death. The protein albumin is crucial. Along with helping to transport minerals and hormones, albumin vitally maintains blood volume by regulating the water flow in and out of the capillaries. How does our liver know how to make albumin, or how much of it to make? Can a gradual Darwinian process be credited with these essential innovations? Or do they bear hallmarks of design? Dr. Glicksman explains this remarkable system, just one of many engineering feats our bodies perform every day to keep us alive. Download the podcast or listen to it here.