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it will moe faster
By shorten the string of the pendulum
The shorter the string - the faster the oscillation.
The color of the weight at the end of the string. (That's the "bob".)
The longer the string - the slower the vibration (and lower the note produced). If you shorten the string - it vibrates faster, producing a higher-pitched note,
it will moe faster
By shorten the string of the pendulum
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 shorter the string - the faster the oscillation.
yes it does because the shorter the string is the faster it will go (:
make the rod longer the rod will shorten the period. The mass of the bob does not affect the period. You could also increase the gravitational pull.
The period of the pendulum is (somewhat) inversely proportional to the square root of the length. Therefore, the frequency, the inverse of the period, is (somewhat) proportional to the square root of the length.
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 color of the weight at the end of the string. (That's the "bob".)
The longer the string - the slower the vibration (and lower the note produced). If you shorten the string - it vibrates faster, producing a higher-pitched note,
In stringed musical instruments, sound is created by plucking, strumming, striking, or bowing across a string in order to make it vibrate. The sound frequency of a particular string can be increased by engaging that string with more force, causing faster vibrations.
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