Frequent exposure to high-frequency sounds can lead to hearing loss over time, as it damages the delicate hair cells in the inner ear. Lower frequencies are generally less damaging to the ears, but extremely loud sounds at any frequency can still cause immediate harm and potential hearing loss. It is important to protect your ears by avoiding prolonged exposure to loud noises and using ear protection when necessary.
The frequency that hurts human ears is typically around 4,000 to 6,000 Hertz.
With your ears, you can observe properties such as sound frequency (pitch), sound intensity (loudness), sound direction (where the sound is coming from), and sound quality (timbre). Your ears allow you to perceive and interpret various auditory stimuli in your environment.
The change in frequency of a sound due to motion of the source is called the Doppler effect. If the source is moving towards the observer, the frequency of the sound appears higher (blueshifted), while if the source is moving away, the frequency appears lower (redshifted). This effect is commonly experienced with passing vehicles and sirens.
In the photoelectric effect, the frequency of incident light determines the energy of the ejected electrons from a material. Electrons are only emitted from the material when the frequency of the incident light is greater than the threshold frequency, which is unique to each material.
Frequency does not have a direct effect on the amplitude of a wave. The amplitude of a wave is determined by the energy of the wave, while frequency refers to the number of wave cycles in a given period of time. Changing the frequency of a wave will not alter its amplitude.
The frequency that hurts human ears is typically around 4,000 to 6,000 Hertz.
9000
No effect on frequency but increases it's amplitude.
effect of high frequency sounds
The same frequency wave as a fire alarm.
A; An amplifier will have no effect on the input frequency however its output may not follow the input frequency at the hi end due to the amplifier limitations
With your ears, you can observe properties such as sound frequency (pitch), sound intensity (loudness), sound direction (where the sound is coming from), and sound quality (timbre). Your ears allow you to perceive and interpret various auditory stimuli in your environment.
Higher the frequency, higher the losses.
The change in frequency of a sound due to motion of the source is called the Doppler effect. If the source is moving towards the observer, the frequency of the sound appears higher (blueshifted), while if the source is moving away, the frequency appears lower (redshifted). This effect is commonly experienced with passing vehicles and sirens.
IT IS RELATED TO AC ONLY BKZ SKIN EFFECT DEPENDS FREQUENCY ONLY WHERE IS IN DC NO FREQUENCY
Frequency has no effect on teh amplitude of a wave.
frequency drops