We can hear almost all amplitudes(except very small amplitudes). Amplitude determines the intensity(i.e., loudness) of sound wave. Intensity is proportional to Amplitude squared. So there is no upper limit for amplitude. But very loud sound(high amplitude wave) can be harmful for ears.
Actually there is a frequency range(20Hz to 20kHz) that we can hear.
As defined by research on the topic of the Electromagnetic Spectrum, no human can hear radio waves. No human can hear any part of the Electromagnetic Spectrum except gamma rays, which have enough energy to light up. If humans were to hear radio waves, they wouldn't need radios (except from the original form).
probably not. what they see or what touches them attacks but sometimes not on humans
The tone knob on a bass guitar affects the timbre of the bass. This means, how the bass sounds overall. For example, turn the knob all the way one way, play your bass, and all the notes will sound very muffled and muddy. Turn the knob all the way the other way, play your bass, and all the notes will sound tinny and metallic. Play with it until you get the sound you want, and keep in mind that in different situations (different songs, even different rooms you play in), you will find you will want to dial your knob differently. In a more technical answer, each note on the bass is actually made up of a series of different frequencies. Our ears pick up dozens of these frequencies, but our brain consolidates them into one note, so we only hear one note. But, we still hear differences in pitch. Tone, or timbre, is determined to how much of each of these frequencies we hear. When we turn our tone knob all one way, we hear more of the lower frequencies in this series, giving us that muffled and muddy sound. Turn it all the way the other way, and we hear more of the higher frequencies in this series, giving us that tinny and metallic sound.
Yes, a song thrush can hear sound. Like most birds, it has a well-developed auditory system that allows it to detect a wide range of frequencies, which is essential for communication, navigation, and foraging. Their ability to hear enables them to recognize the calls of other birds and respond appropriately, contributing to their social interactions and survival.
When two sounds at frequencies of 240 Hz and 243 Hz occur simultaneously, the beat frequency is determined by the difference between the two frequencies. In this case, the beat frequency is 243 Hz - 240 Hz, which equals 3 Hz. This means you would hear a fluctuation in volume at a rate of 3 beats per second.
No, humans cannot hear ultrasound frequencies.
Humans can typically hear frequencies ranging from 20 Hz to 20,000 Hz.
Some animals can hear higher frequencies than humans can. This is why animals can hear things like dog whistles, and we can't hear them. In all, animals can hear differently than humans in the way that they can hear more. Some animals can hear lower frequencies than humans can. Elephants can hear much lower frequencies than humans.
No, animals do not hear the same frequencies of sound as humans. Different animals have different ranges of hearing, with some able to hear higher or lower frequencies than humans.
Humans can typically hear frequencies ranging from about 20 Hz to 20,000 Hz. However, the ability to hear higher frequencies tends to decline with age, and some individuals may not be able to hear frequencies at the extremes of this range.
the range of sound frequencies that humans can hear is about0to200Hz
Humans can typically hear frequencies in the range of 20 Hz to 20,000 Hz, with the ability to hear higher frequencies declining as we age. This range is often used as a standard for audio equipment and music production.
Humans cannot hear frequencies that are above 20,000 Hz or below 20 Hz.
No, humans cannot hear ultrasound frequencies as they are above the range of human hearing, which typically ranges from 20 Hz to 20,000 Hz. Ultrasound frequencies are typically above 20,000 Hz.
Humans can typically hear sound frequencies ranging from 20 Hz to 20,000 Hz.
No, actually they hear less than humans. They can hear frequencies beetwen 400Hz and 2000Hz, as humans can hear a bigger interval, from 20Hz to 20000Hz
Humans can generally hear sound frequencies between 20 Hz and 20,000 Hz. This range may vary depending on factors such as age and exposure to loud noises.