Science, Tech, Math › Science 10 Sounds We Hate Most Share Flipboard Email Print Science Biology Physiology Basics Cell Biology Genetics Organisms Anatomy Botany Ecology Chemistry Physics Geology Astronomy Weather & Climate By Regina Bailey Biology Expert B.A., Biology, Emory University A.S., Nursing, Chattahoochee Technical College Regina Bailey is a board-certified registered nurse, science writer and educator. Her work has been featured in "Kaplan AP Biology" and "The Internet for Cellular and Molecular Biologists." our editorial process Regina Bailey Updated December 28, 2018 Scientists have discovered why unpleasant sounds trigger a negative response. When we hear unpleasant sounds such as a fork scraping a plate or nails against a chalkboard, the auditory cortex of the brain and an area of the brain called the amygdala interact to produce a negative response. The auditory cortex processes sound, while the amygdala is responsible for processing emotions such as fear, anger, and pleasure. When we hear an unpleasant sound, the amygdala heightens our perception of the sound. This heightened perception is deemed distressing and memories are formed associating the sound with unpleasantness. 01 of 06 How We Hear Nails scraping against a chalkboard is one of ten most hated sounds. Tamara Staples/Stone/Getty Images Sound is a form of energy that causes air to vibrate, creating sound waves. Hearing involves the conversion of sound energy to electrical impulses. Sound waves from the air travel to our ears and are carried down the auditory canal to the ear drum. Vibrations from the eardrum are transmitted to the ossicles of the middle ear. The ossicle bones amplify the sound vibrations as they are passed along to the inner ear. The sound vibrations are sent to the organ of Corti in the cochlea, which contains nerve fibers that extend to form the auditory nerve. As the vibrations reach the cochlea, they cause the fluid inside the cochlea to move. Sensory cells in the cochlea called hair cells move along with the fluid resulting in the production of electro-chemical signals or nerve impulses. The auditory nerve receives the nerve impulses and sends them to the brainstem. From there the impulses are sent to the midbrain and then to the auditory cortex in the temporal lobes. The temporal lobes organize sensory input and process the auditory information so that the impulses are perceived as sound. 10 Most Hated Sounds According to a study published in the Journal of Neuroscience, frequency sounds in the range of around 2,000 to 5,000 hertz (Hz) are unpleasant to humans. This frequency range also happens to be where our ears are most sensitive. Healthy humans can hear sound frequencies that range from 20 to 20,000 Hz. In the study, 74 common noises were tested. The brain activity of participants in the study was monitored as they listened to these sounds. The most unpleasant sounds as indicated by participants in the study are listed below: Knife on a bottleFork on a glassChalk on a blackboardRuler on a bottleNails on a blackboardFemale screamAngle grinderBrakes on a cycle squealingBaby cryingElectric drill Listening to these sounds induced more activity in the amygdala and auditory cortex than did other sounds. When we hear an unpleasant noise, we often have an automatic physical reaction. This is due to the fact that the amygdala controls our flight or fight response. This response involves the activation of the sympathetic division of the peripheral nervous system. Activation of the nerves of the sympathetic division may result in accelerated heart rate, dilated pupils, and an increase in blood flow to the muscles. All of these activities allow us to respond appropriately to danger. Least Unpleasant Sounds Also revealed in the study were the sounds people found least offensive. The least unpleasant sounds indicated by participants in the study were: ApplauseBaby laughingThunderWater flowing Why We Don't Like the Sound of Our Own Voice Most people don't like to hear the sound of their own voice. When listening to a recording of your voice, you may wonder: Do I really sound like that? Our own voice sounds different to us because when we speak, the sounds vibrate internally and are transmitted directly to our inner ear. As a result, our own voice sounds deeper to us than it does to others. When we hear a recording of our voice, the sound is transmitted through the air and travels down the ear canal before reaching our inner ear. We hear this sound at a higher frequency than the sound we hear when we are speaking. The sound of our recorded voice is strange to us because it is not the same sound we hear when we speak. 02 of 06 Nails on a Blackboard Nails on a Blackboard. Jane Yeomans/The Image Bank/Getty Images According to a study published in the Journal of Neuroscience, the 5th most unpleasant sound is that of nails scraping against a blackboard (listen). 03 of 06 Ruler on a Bottle A ruler scraping a bottle is one of ten most hated sounds. Court Mast/Photographer's Choice/Getty Images Listen to the sound of a ruler on a bottle, the 4th most unpleasant sound in the study. 04 of 06 Chalk on a Blackboard Chalk on a blackboard is one of ten most hated sounds. Alex Mares-Manton/Asia Images/Getty Images The 3rd most unpleasant sound is that of chalk on a blackboard (listen). 05 of 06 Fork on a Glass A fork scraping a glass is one of ten most hated sounds. Lior Filshteiner/E+/Getty Images The 2nd most unpleasant sound is that of a fork scraping against a glass (listen), according to a study published in the Journal of Neuroscience. 06 of 06 Knife on a Bottle The number one most hated sound is that of a knife scraping against a bottle. Charlie Drevstam/Getty Images According to a study published in the Journal of Neuroscience, the number one most unpleasant sound is that of a knife scraping against a bottle (listen). Sources: S. Kumar, K. von Kriegstein, K. Friston, T. D. Griffiths. Features versus Feelings: Dissociable Representations of the Acoustic Features and Valence of Aversive Sounds. Journal of Neuroscience, 2012; 32 (41): 14184 DOI: 10.1523/JNEUROSCI.1759-12.2012.Newcastle University. "The worst noises in the world: Why we recoil at unpleasant sounds." ScienceDaily. ScienceDaily, 12 October 2012. (www.sciencedaily.com/releases/2012/10/121012112424.htm).