F=1/t
1/264=.003788
The modern day bandurria has 12 strings (6 pairs). During the renaissance, they had two.
most strings will just rust after a long period of time but you dont have to worry about it if you play guitar a lot. some manufactures like Dean Markleys blue steel and this other brand freeze their strings to the temperature of neptune and the other brand i cant remember also heats them up too. Weird but Dean Markley are great strings just they don't last as long as I'd like them to.
Stringed instruments, such as the guitar and similar lute were around since before even the Egyptian period, so an exact date and inventor for the guitar strings cannot be accurately named, only assumed from the context provided by history. In the thirteenth century the ancestor of the modern guitar was found, and the strings were made of sheep intestines.
A harpsichord was the keyboard instrument before piano fortes, the modern piano. Unlike a piano, where hammars hit the strings, a harpsichord's strings were plucked by quills, or "jacks." Harpsichords were used by Bach and other composers of that time period.
The orchestra grew a bit, adding pairs of woodwinds, some brass, and more strings. The one new ensemble to develop was the string quartet.
The oscillation of a spring is the motion that the spring makes when disturbed. Imagine holding the end of a spring and hanging a weight to the other end. If you do not disturb the weight, it will stay in a static position. However, when you pull down on the weight and let go, the spring "oscillates" up and down. The spring could also be compressed and released, creating the same effect. The up and down motion, which has a specific velocity and period relating to the spring constant k, is oscillation.
Mass oscillation time period = 2 pi sq rt. (m/k) Pendulum oscillation time period = 2 pi sq rt. (l/g)
The inverse of frequency.
Initial displacement has no effect on the period of oscillation. The period T = 2(pi)sqrt(mass/spring constant)
The period increases too.
Time period per oscillation=32/ 20=1.6 sec per oscillation.
It is 0.5 seconds.
The physics definition of period is the duration of one complete cycle of a wave or oscillation.
T=1/f .5=1/f f=2
Prices that go up and down over a period of time.
time period
The period of a simple pendulum of length 20cm took 120 seconds to complete 40 oscillation is 0.9.