Music Inside Your Head? Testing the Viral Singing Lollipop!

AMOS Audio Lollipops - Listen to.Music Through Your Mouth Made for parents and teachers Amos Music Lollipop Candy, Audio Singing Lollipop, Individually Wrapped Natural Blueberry Flavor (1 Pack) https://amzn.to/4o1ArOR Amos Music Lollipop Candy Suckers, Singing Lollipop Sugar Free, Unique Men &Women, Individually Wrapped Strawberry&Blackberry Flavor Combo Pack - (2 Pack) https://amzn.to/4e3F6ep AMOS Music Lollipop Candy Suckers – TastySounds Audio Hip Hop Singing Lollipop, Assorted Fruit Flavors, Sugar-Free, Low-Calorie Snack, (4-Pack) https://amzn.to/4u8NaAw I make a small commission through Amazon Science Kits and more https://elementarysciencen.wixsite.com/sciencekits Kids Fun Science Online Store https://teespring.com/stores/kids-fun-science Chapters 0:11 Volunteers 0:25 Steps for Bone Conduction 0:41 Where I bought mine 0:51 Landon with Steps to do the experiment 1:28 Michael with Strawberry favor and song is "Dance to I can" 1:47 Axel 2:04 James 2:22 Ken Blueberry favor with Song "Watch Me Rise" 2:41 Science behind it (More science in the Discription) Science Behind it The science behind the AMOS “music lollipop” is called bone conduction. When you put the lollipop in your mouth and turn it on, a tiny electronic device inside the stick creates vibrations. Instead of sending sound through the air like a normal speaker, those vibrations travel through your: Teeth Jawbone Skull bones Your inner ear (the cochlea) can detect these vibrations and interpret them as sound. That’s why it can feel like the music is playing inside your head rather than coming from outside.   Here’s the basic path: Electronic vibrations → teeth → jawbone → inner ear → brain hears music You can think of it like this: 🎵 Normal headphones:Air vibrations → eardrum → inner ear 🍭 AMOS music lollipop:Bone vibrations → teeth/jaw → inner ear The same principle is used in some specialized headphones that let people hear music while keeping their ears open. More Science Most of what we hear comes to us through air conduction: sound waves travel down the ear canal, hit the eardrum, vibrate the tiny bones of the middle ear, and finally reach the cochlea (the fluid-filled inner ear organ that translates vibrations into nerve signals for the brain). Bone conduction completely bypasses the outer and middle ear. Instead of vibrating the air, sound vibrations are transmitted directly through the bones of the skull (specifically the temporal bone) straight to the cochlea. The Everyday "Voice Test" You experience bone conduction every time you speak. It is the primary reason your voice sounds deeper, richer, and more resonant to you than it does to anyone else.  When you speak: Your vocal cords vibrate, and those vibrations travel through your jaw and skull bones directly to your inner ear.  When you hear a recording of yourself: You are hearing your voice purely via air conduction, stripping away that bone-conducted bass. This is why almost everyone dislikes the sound of their recorded voice—it sounds unfamiliar and thinner. Practical Applications Because it skips the standard auditory pathway, bone conduction is incredibly useful in consumer technology and medicine: Open-Ear Headphones: Popular among runners, cyclists, and outdoor enthusiasts. The transducers rest against the cheekbones right in front of the ear. This leaves the ear canal completely unobstructed, allowing the user to listen to music or podcasts while remaining fully aware of ambient environmental sounds (like traffic or approaching people).  Medical Audiology (BAHA): Bone Anchored Hearing Aids are life-changing for individuals with conductive hearing loss, chronic ear canal infections, or structural issues in the middle ear. If the eardrum or middle ear bones cannot transmit sound, an external processor can capture audio and send it as vibrations through the skull bone directly to a functioning inner ear.  Tactical & Military Communication: Used in high-noise environments where operators need to wear hearing protection (earplugs) to shield their eardrums from gunfire or heavy machinery, but still need to receive clear radio communications through their headset. Because bone conduction bypasses your eardrum entirely, the listening experience is fundamentally different from standard earbuds. If you are switching from traditional earbuds to bone conduction, the change in audio quality can be a bit of a surprise.