Engineered for fast-paced soccer action, this inflatable sports pitch is perfect for events & 1v1 to 7v7 games, sharpening skills & match intensity. Made from durable, waterproof PVC tarpaulin, it withstands every slide tackle & strike. Quick to set up in 10-20 minutes, with 2x 1200W electric air pu... Read more
We have been manufaturing in inflatable product for more than 10 years. We are strict in the products quality. It's worth your choice! Easy set up, convenience to carry around fo rentalï¼. We will try our best to reduce the risk of the custom duties.
Looks like it depends on the medium it is travelling in. I guess if there isn’t a medium, then there isn’t a “sound”, though I may be wrong. I found this on stack exchange though…
“In a solid, the phonon frequency is periodic, since phonons are defined by lattice displacements. In this case, the maximum frequency is estimated by twice the inter-atomic distance over the speed of sound. this gives 20,000 Ghz as the limiting phonon frequency, again higher, because the speed of sound in solids can be 2-3 times higher, and (twice) the interatomic spacing is five times smaller than a liquid. So it is safe to put the upper limit of ultrasound in metals at 100,000 Ghz, and then only for small-atom metals. If you look at optical phonon bands, you can get frequencies like this over a wide range of modes.”
Wikipedia has this diagram of the acoustic frequency spectrum:
Is there an upper limit to the frequencies you can transmit through the air? Are they absorbed more and more at higher frequencies,
An answer to a similar question on Quora brings up the question of if an audio frequency is beyond the range of hearing, is it actually classed as a “sound” or something else, such as a simple vibration. Quarks (probably) vibrate, right?
What is the highest sound frequency possible? - Quora
Interesting idea. I was intrigued, so I emailed the well-respected physicist Dr Philip Moriarty about this and although I couldn’t get a definitive yes or no answer to the question (of if there is a highest pitch), he did provide a great link to further reading and a nice insight into what, if anything would limit a very high pitch sound wave travelling in air.
“The question of a highest pitch is really intriguing… The ultimate limitation will be the response time of the medium: how quickly can the molecules/atoms transfer the energy? And that will depend, in a first approximation, on the mean free path of the molecules – i.e. how far they travel, on average, without being scattered by another molecule. And then there’s the question of the attenuation as a function of frequency.”
How could we even detect a wavelength shorter than a quark? There may be loads of sounds going on out there, well, in here, that we can’t measure. From this on wiki, pitch may be boundless, both ways.
The electromagnetic (EM) spectrum spans many types of radiation, from gamma rays and X-rays through ultraviolet, visible, and infrared “light” and on through longer radio waves.
Take a look at this video of the inflatable soccer field in action.
This inflatable pitch looks very professional.
This would be perfect for kids!
I found this!
I found this mini soccer arena!
This field is excellent for grassroots football, especially for kids.
Here’s another company that offers portable pitches.
https://www.soccerground.com/products/small_sided_pitches/8/soccerground-advanced-free-standing-mini-pitch
Wow! This company offers a portable soccer court for rent during events.
https://www.kick-point.com/portable-soccer-court-for-rent/
Looks like it depends on the medium it is travelling in. I guess if there isn’t a medium, then there isn’t a “sound”, though I may be wrong. I found this on stack exchange though…
“In a solid, the phonon frequency is periodic, since phonons are defined by lattice displacements. In this case, the maximum frequency is estimated by twice the inter-atomic distance over the speed of sound. this gives 20,000 Ghz as the limiting phonon frequency, again higher, because the speed of sound in solids can be 2-3 times higher, and (twice) the interatomic spacing is five times smaller than a liquid. So it is safe to put the upper limit of ultrasound in metals at 100,000 Ghz, and then only for small-atom metals. If you look at optical phonon bands, you can get frequencies like this over a wide range of modes.”
An answer to a similar question on Quora brings up the question of if an audio frequency is beyond the range of hearing, is it actually classed as a “sound” or something else, such as a simple vibration. Quarks (probably) vibrate, right?
Interesting idea. I was intrigued, so I emailed the well-respected physicist Dr Philip Moriarty about this and although I couldn’t get a definitive yes or no answer to the question (of if there is a highest pitch), he did provide a great link to further reading and a nice insight into what, if anything would limit a very high pitch sound wave travelling in air.
“The question of a highest pitch is really intriguing… The ultimate limitation will be the response time of the medium: how quickly can the molecules/atoms transfer the energy? And that will depend, in a first approximation, on the mean free path of the molecules – i.e. how far they travel, on average, without being scattered by another molecule. And then there’s the question of the attenuation as a function of frequency.”
How could we even detect a wavelength shorter than a quark? There may be loads of sounds going on out there, well, in here, that we can’t measure. From this on wiki, pitch may be boundless, both ways.
Can’t even find out if there is an upper limit for light nevermind sound.
So is there a highest pitch or frequency? No clues here but a good video anyways.