Single chords convey distinct emotional qualities to both naïve and expert listeners.

Previous research on music and emotions has been able to pinpoint many structural features conveying emotions. Empirical research on vertical harmony’s emotional qualities, however, has been rare. The main studies in harmony and emotions usually concern the horizontal aspects of harmony, ignoring emotional qualities of chords as such. An empirical experiment was conducted where participants (N = 269) evaluated pre-chosen chords on a 9-item scale of given emotional dimensions. 14 different chords (major, minor, diminished, augmented triads and dominant, major and minor seventh chords with inversions) were played with two distinct timbres (piano and strings). The results suggest significant differences in emotion perception across chords. These were consistent with notions about musical conventions, while providing novel data on how seventh chords affect emotion perception. The inversions and timbre also contributed to the evaluations. Moreover, certain chords played on the strings scored moderately high on the dimension of ‘nostalgia/longing,’ which is usually held as a musical emotion rising only from extra-musical connotations and conditioning, not intrinsically from the structural features of the music. The role of background variables to the results was largely negligible, suggesting the capacity of vertical harmony to convey distinct emotional qualities to both naïve and expert listeners

Stephen Davies on the Issue of Literalism

In this paper I discuss Stephen Davies’s defence of literalism about emotional descriptions of music. According to literalism, a piece of music literally possesses the expressive properties we attribute to it when we describe it as ‘sad’, ‘happy’, etc. Davies’s literalist strategy exploits the concept of polysemy: the meaning of emotion words in descriptions of expressive music is related to the meaning of those words when used in their primary psychological sense. The relation between the two meanings is identified by Davies in music’s presentation of emotion-characteristics-in-appearance. I will contend that there is a class of polysemous uses of emotion terms in descriptions of music that is not included in Davies’s characterization of the link between emotions in music and emotions as psychological states. I conclude by indicating the consequences of my claim for the phenomenology of expressive music

Music as Evidence for a Creator

Throughout history, mankind has made music. While music is artistic, it is also scientific and informed by natural occurrences within the physical world. Mathematical relationships between frequencies, the harmonic series, the materials necessary to build musical instruments, and naturally measured time provide bases for the musical elements of pitch, timbre, and rhythm. Though scientific discovery can inform the practice of music, the origin of music cannot be explained through scientific or evolutionary means because music is not a necessity for survival. The fact that music does exist and has natural bases suggests that music is designed, and its elements were placed in the physical world by a Creator who is beyond that which is physical

Plug-in to fear: game biosensors and negative physiological responses to music

The games industry is beginning to embark on an ambitious journey into the world of biometric gaming in search of more exciting and immersive gaming experiences. Whether or not biometric game technologies hold the key to unlock the “ultimate gaming experience” hinges not only on technological advancements alone but also on the game industry’s understanding of physiological responses to stimuli of different kinds, and its ability to interpret physiological data in terms of indicative meaning. With reference to horror genre games and music in particular, this article reviews some of the scientific literature relating to specific physiological responses induced by “fearful” or “unpleasant” musical stimuli, and considers some of the challenges facing the games industry in its quest for the ultimate “plugged-in” experience

Music in the first days of life

In adults, specific neural systems with right-hemispheric weighting are necessary to process pitch, melody and harmony, as well as structure and meaning emerging from musical sequences. To which extent does this neural specialization result from exposure to music or from neurobiological predispositions? We used fMRI to measure brain activity in 1 to 3 days old newborns while listening to Western tonal music, and to the same excerpts altered, so as to include tonal violations or dissonance. Music caused predominant right hemisphere activations in primary and higher-order auditory cortex. For altered music, activations were seen in the left inferior frontal cortex and limbic structures. Thus, the newborn's brain is able to plenty receive music and to figure out even small perceptual and structural differences in the music sequences. This neural architecture present at birth provides us the potential to process basic and complex aspects of music, a uniquely human capacity

A Study of Music: Music Psychology, Music Therapy, and Worship Music

There are three specific fields related to music: the psychology of Music and how it affects human brain and functions, the methodology of Music Therapy and how it affects individuals undergoing treatment, and the psychological effects of Worship Music and how it can be used in music therapy. Music therapy is a growing field in which the therapeutic outcomes greatly benefit the patients. The overall purpose is to create a greater understanding of music and music therapy in order to a provide a system for introducing group worship services into music therapy to ultimately bring spiritual healing to individuals

Automatic estimation of harmonic tension by distributed representation of chords

The buildup and release of a sense of tension is one of the most essential aspects of the process of listening to music. A veridical computational model of perceived musical tension would be an important ingredient for many music informatics applications. The present paper presents a new approach to modelling harmonic tension based on a distributed representation of chords. The starting hypothesis is that harmonic tension as perceived by human listeners is related, among other things, to the expectedness of harmonic units (chords) in their local harmonic context. We train a word2vec-type neural network to learn a vector space that captures contextual similarity and expectedness, and define a quantitative measure of harmonic tension on top of this. To assess the veridicality of the model, we compare its outputs on a number of well-defined chord classes and cadential contexts to results from pertinent empirical studies in music psychology. Statistical analysis shows that the model's predictions conform very well with empirical evidence obtained from human listeners.Comment: 12 pages, 4 figures. To appear in Proceedings of the 13th International Symposium on Computer Music Multidisciplinary Research (CMMR), Porto, Portuga