A singer’s impossible peak You might imagine Mariah Carey or Maria Callas would top the scales, but Brazilian soprano Georgia Brown set the bar by hitting a G in the high 10th octave. Musical experts later confirmed the note, which translates to about 25,000 hertz, earning Brown a Guinness World Record in 2004. A medical device’s dramatic whine Ultrasound machines create energy waves so fast and furious that they can pass through bone, fat, tissue, and other masses. The intensity of the transmissions depends on the medical application: Prenatal checks are usually set at 2.5 million hertz, breast scans at 5 million hertz, and skin-inflammation screenings at 100 million hertz. In some cases, extreme frequencies heal too: Pulses at 1 million to 3 million hertz have proven therapeutic for knee injuries like MCL sprains. The cosmos’s cryptic message In general, the universe operates in low frequencies (NASA recently recorded a black hole “screaming” at 57 octaves below the average adult voice). A mysterious radio signal from an unknown extraterrestrial location, though, screeches at such a high pitch that astronomers haven’t been able to precisely measure it. Nicknamed the “space roar,” this intense but diffuse energy wave could top out at 3 billion hertz. A bat’s remarkable song A diverse collection of creatures communicate in ultrasound, including katydids and hummingbirds. One species, however, takes it to a whole other level. The clear-winged woolly bat of Southeast Asia has one of the widest vocal ranges ever measured. Its echolocating buzzes can reach 250,000 hertz—more than 10 times higher than a human’s top shriek. Biologists hypothesize that the night flyers are locked in an evolutionary war with tasty moths: The higher the mammals raise their voices, the lower the chance their prey will hear them coming. The body’s telling thrum Heart murmurs can be a benign quirk or the sign of a deadly health condition. Family doctors might listen for them with a stethoscope, but a test called a Doppler ultrasound shows these irregular blood flows can whoosh around at up to 410 hertz, which is more than double the usual pitch. As a murmur courses through the arteries in the chest at varying speeds, the frequency of its sound changes, giving cardiologists a clue to the source’s severity. This story originally appeared in the High Issue of Popular Science. Read more PopSci+ stories.