Well, isn't that a fascinating question! The resonant frequency of a specific volume of oxygen can vary depending on factors like temperature and pressure. But remember, each element has its own unique resonant frequency that can create harmony in the world around us. Just like how a happy little tree adds beauty to a landscape, oxygen's resonant frequency plays a vital role in the symphony of life.
Oxygen packing density refers to the amount of molecular oxygen that can be contained in a given volume or space. It is commonly used in the context of oxygen storage systems, such as oxygen tanks or containers, to determine how much oxygen can be stored in a specific volume. The higher the oxygen packing density, the more oxygen that can be stored in a smaller space.
You can estimate the volume of oxygen generated in a plastic bag by knowing the concentration of the oxygen generated and the total volume of the bag. Multiply the concentration of oxygen by the total volume of the bag to get an estimate of the volume of oxygen generated.
Divide 225ml by 20.9, then multiply by 100.
if this is math and your asking what gas has a percent by volume 78.09 it is nitrogen
The pitch of a sound is determined by its frequency. A high-pitched sound has a higher frequency, while a low-pitched sound has a lower frequency. The unit of measurement for frequency is hertz (Hz).
It is not so much the volume of the sound as the frequency as well. Sound at the wrong frequency can be played as loud as you like and it will not break the glass. The sound needs to be the same frequency as the resonant frequency of the glass (tap the glass, that note is it's resonant frequency). Once the resonant frequency has been found, it does not take much volume at all, even humans can do it, albeit trained singers (see Mythbusters).
The tuned frequency of a rhomboidal shaped Helmholtz resonator can be calculated using the Helmholtz resonator formula, which takes into account the volume of the resonator cavity, the area of the neck opening, and the length of the neck. The formula is f = (c/2π) * sqrt(AVL), where f is the resonant frequency, c is the speed of sound, A is the area of the neck opening, V is the volume of the cavity, and L is the length of the neck.
Oxygen packing density refers to the amount of molecular oxygen that can be contained in a given volume or space. It is commonly used in the context of oxygen storage systems, such as oxygen tanks or containers, to determine how much oxygen can be stored in a specific volume. The higher the oxygen packing density, the more oxygen that can be stored in a smaller space.
To determine how many liters of oxygen represents 40 percent, you need to know the total volume of the mixture. For example, if you have 100 liters of gas, then 40 percent of that would be 40 liters of oxygen. Thus, the specific volume of oxygen depends on the total volume you’re considering.
depending on the volume the vibrations caused by sound waves will constently be hitting the glass an extreamly high volume would create waves powerfull enough to brake the glass. Everything object has a frequency(resonant frequency), if this frequency is matched and amplifide the vibration can become greater then the object can handle and breaks. On Mythbusters the did this with a wine clas and the got a steel bridge to vibrate trough out its length. but any how it has to do with vibration
No. Frequency is related to pitch, and amplitude is related to volume.
The sound produced by a xylophone is typically bright and resonant, falling into the high-frequency range. It can vary in volume depending on how hard the keys are struck, but generally falls in the moderate to loud range.
Pitch=Frequency Volume=Amplitude
Volume (loudness), pitch and timbre are approximately the correlates of signal amplitude, frequency and frequency spectrum, respectively.
Volume (loudness), pitch and timbre are approximately the correlates of signal amplitude, frequency and frequency spectrum, respectively.
We measure pitch with frequency and volume with amplitude.
No, turning up the volume does not change the frequency of a sound wave. The frequency of a sound wave is determined by the rate of vibrations, while the volume is related to the amplitude of the wave, which increases the intensity of the sound.