The frequency of a pendulum is inversely proportional to the square root of its length.
If you want to increase the frequency of a pendulum by a factor of 10, you make it
99% shorter.
The tin can sound is produced when vibrations from Zoe tapping the can travel along the string to your end, causing the can on your end to vibrate and create sound. This happens because the string acts as a medium for the vibrations to travel.
consolidation, reduction, compression, contraction
It is not recommended to shorten the oxygen cannula prongs as this can affect the delivery of oxygen to the patient. It is important to use the cannula as directed by a healthcare professional to ensure the correct flow of oxygen.
To grow salt crystals on a string, you can create a saturated salt solution by dissolving salt in water. Then, suspend a string in the solution and allow it to sit undisturbed. As the water evaporates, salt crystals will form on the string.
Silly string can harden and become difficult to remove from hair if left for a couple of hours. It is best to try to remove it gently using a comb or your fingers, or consider using a mild oil, such as coconut or olive oil, to help loosen it before washing your hair.
A shorter string will result in a higher pitch. This is why, on a violin or cello, for example, the pitch rises as you place your fingers farther and farther up the fingerboard.
To adjust the intonation of your guitar, use a tuner to check the pitch of each string at the 12th fret. If the pitch is off, use the saddle screws on the bridge to lengthen or shorten the string until the pitch matches the open string.
The sound a violin makes is caused by vibrations (oscillations) in the string that vibrate the air around it resulting in a longitudinal (sideways moving) sound wave at the same frequency as the string. At the two ends of the string are displacement nodes where the sting can't move, the centre of the string is an anti node where the potential displacement is maximum. When you shorten the string you shorten the length of the string and shorten the length of the wave that fits on the string and so change the frequency of the string changing it's pitch.
The tighter you make the string - the higher the pitch.
They aren't. You might be talking about the frets, which has to do with the physics of a vibrating string. Cutting a string in half increases the pitch one octave, so you need to shorten the length of the string less as the string shortens to get the same change in pitch.
Because when you pluck/strum etc a string it vibrates, and this causes the sound. If you lengthen or shorten the string, the pitch changed (longer:lower, shorter:higher) Hope this helps!
If you shorten the length of the string of a pendulum, the frequency of the pendulum will increase. This is because the period of a pendulum is directly proportional to the square root of its length, so reducing the length will decrease the period and increase the frequency.
The pitch of a guitar string will rise if you shorten it or tighten it. When you press a string, you hold it against a metal bar called a 'fret'. This effectively shortens the length where the string can vibrate, so the pitch is higher. You can also 'bend' the string by sliding it sideways up the fret. This tightens the string and the pitch will also rise, but you can vary the pressure making the note slide instead of changing suddenly.
It vibrates to the pitch it is tuned to.
Shorten the string. Shorter strings make higher pitches (e.g. violin); longer strings make lower pitches (e.g. double bass).
Its frequency would be higher. Imagine a guitar. When you put your finger higher up the fretboard, you shorten the string essentially. This has the effect of making the note higher
I'm assuming that it then has a higher frequency, making the pitch higher than before.