The frequency, f of an oscillating disturbance is equal to number of times (cycle) every second the disturbance passes from the one extreme position to other and back to original position. The number...

Extracted text: The frequency, f of an oscillating disturbance is equal to number of times (cycle) every second the disturbance passes from the one extreme position to other and back to original position. The number of times (cycles) per second is called Hertz. Basically, the frequency in pure tone sound wave namely pitch of the tone. Briefly describe the particular type of sound as shown in the Figure Q2(a). Q2 (а) An operator in a textile mill is operating six machines. If the sound pressure levels of each machine at his position are given in Table Q2(b): (b) Determine the total sound pressure level (in decibels) and total mean square pressure (in N/m²) produced by all six machines at the operator position. (i)


Extracted text: Infrasound Audible Sound Ultrasound f (Hz) 20 Hz 20 kHz Figure Q2(a)