Loudness is determined by the amplitude of the sound waves.
its a measurement of cycles per second of sound or other waves and Hertz is the scientist who invented the scale of measurement
Hertz, a frequency measurement unit equal to one cycle per second.
it is how loud the sound is ^Smartass comment. The real answer: Loudness is determined by the intensity of sound waves.
sound waves are made by amplitudes
sounds waves are longitudinal and mechanical waves
The unit of sound measurement used to quantify the intensity of sound waves is decibels (dB).
The sound that you hear.
heat
The term decibel is a unit of measurement of the loudness of sound. It has nothing to do with light, which is measured in lumens.
The standard unit of measurement for sound power is the decibel (dB). It is defined in relation to the intensity of sound waves by comparing the power of the sound to a reference level, which is typically the threshold of human hearing.
Pitch refers to how high or low a sound is, determined by the frequency of the sound waves. Volume, on the other hand, refers to how loud or soft a sound is, determined by the amplitude of the sound waves.
measurement of the amplitude of the largest seismic waves
No, the speed of sound is not dependent on frequency. It is determined by the medium through which the sound waves travel.
Sound waves are basically mechanical waves. i.e they require a medium to pass.The Unit of measurement for Sound is actually dependent upon what physical feature of sound do you wish to measure. The most commonly used units used are dB (decibel) and Hz (hertz).
Music is created through sound waves, which are vibrations that travel through the air. Instruments produce sound waves when they are played, and these waves are then heard by our ears. The pitch, volume, and timbre of music are all determined by the characteristics of these sound waves. Our brains interpret these sound waves to create the experience of music.
Pitch is the quality determined by the speed of vibration of sound waves. Faster vibrations result in higher pitch, while slower vibrations result in lower pitch.
The depth of the sea can be determined by measuring the time taken for sound waves to travel from a source to the seafloor and back to a receiver. By knowing the speed of sound in water, scientists can calculate the distance to the seafloor based on the time taken for the sound waves to return. This method is known as echo sounding or sonar.