looking for length of tube if i.d is 93mm and is to hold 1ltr of fluid
each pipe is a different length.... the shorter the pipe the higher the note....the longer the pipe the lower the note...
A tube contains enclosed air by a thread of mercury of 250mm long when tube is horizontal the length of air is 250 mm long. The pressure on the air column when atmospheric pressure is 750 mm Hg is 3 Pascal or 3 N / m2.
it is how loud the sound is ^Smartass comment. The real answer: Loudness is determined by the intensity of sound waves.
24dB Sound Pressure Level (SPL) is about the sound level in a calm room.
the pitch of the lowest possible resulting sound will be inversely proportional to the length of the tube.
To determine the velocity of sound in an open or closed tube, you can use the formula v = f * λ, where v is the velocity of sound, f is the frequency of the sound wave, and λ is the wavelength of the sound wave. In an open tube, you can measure the resonant frequency of the tube and the tube's length to calculate the velocity. In a closed tube, you can use the tube's length and other properties to calculate the velocity.
To find the speed of sound using a resonance tube, you can measure the length of the tube that produces resonance with a tuning fork. By adjusting the length of the tube until you hear the loudest sound, you can determine the resonant wavelength. Then, using the formula velocity = frequency × wavelength, you can calculate the speed of sound.
A tube produces sound by allowing air molecules to vibrate within it. When air is forced through the tube, it creates pressure differences that cause the air molecules to move back and forth, creating sound waves. The length and shape of the tube determine the pitch and tone of the sound produced.
Changing the length of the rubber band can affect the pitch of the sound produced. Shortening the rubber band tends to increase the pitch, while lengthening it lowers the pitch. This is because the shorter length creates higher frequency vibrations and vice versa.
The length of time a person is exposed to sound is called "duration of exposure." This refers to the amount of time a person is subjected to noise or sound levels that can potentially affect their hearing.
The velocity of sound in air can be calculated using the formula v = f * λ, where v is the velocity of sound, f is the frequency of the sound wave, and λ is the wavelength. In a resonance tube closed at one end, the first resonance occurs when the length of the tube is one-fourth of the wavelength of the sound wave produced. This information can be used to calculate the velocity of sound in air.
Yes, the length of a vibrating object does affect the sound it produces. Longer objects typically produce lower pitched sounds, while shorter objects produce higher pitched sounds. This is due to the wavelength of the sound wave being directly related to the length of the vibrating object.
The longer the tube length, the higher the resistance to fluid flow due to increased surface area for friction. This increased resistance can result in slower fluid flow rates and higher pressure drops along the length of the tube.
A boiling tube is typically around 10 to 15 centimeters in length.
Changing the length of a vibrating object, such as a string or air column, affects the frequency of the sound produced. Shortening the length typically results in a higher frequency or pitch, while lengthening it results in a lower frequency or pitch. This is due to the relationship between the wavelength of the sound wave and the size of the vibrating object.
No, the word "tube" does not have a long U sound. It is pronounced as "toob."