ความเร็วของเสียงคงที่ในอุณหภูมิเดีย

The speed of sound in the same temperature that is equal to the product of the frequency and wavelength. The value of the speed of sound, is calculated using the equation: V_t = 331.5 + 0.6 t. In this experiment, whenever you hear a loud, open-ended tube is a rhythm position protecting the audio node, the length would be about half of a wavelength greater than one for the first time. These results enable you to get the value of the wavelength of sound at a frequency. Throughout this trial, I have learned that the speed of sound, and the range of the human ear will hear that voice.

The speed of sound in the same temperature, which is a constant multiple of the frequency and wavelength. The value of the speed of sound can be calculated using this equation: V_t = 331.5 + 0.6t in this trial, whenever you hear a noise, the open end of the tube is a place for stroke prevention node. Noise, the length is about half the wavelength than the first one. These results enable you to get the value of the wavelength of sound frequencies. Throughout the experiment, I learned that the speed of sound, and the sound of the human ear to hear.

The speed of sound in a constant temperature which is equal to multiples of the same frequency and wavelength. The value of the speed of sound to get calculation using this equation: V_t = 331.5 0.6T in this experiment was ามท whenever you hear loud.The open ends of the pipe is a protective position rhythm place node. The noise next length is about half of the wavelength than the first one.For this experiment, I learned that the speed of sound and the sound the human ear can hear
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