Donate SIGN UP

A Pendulum Has A Length (L) And Time Period (T) For Completing One Oscillation. Prove That: F=1/2(L)1/2?

Avatar Image
inkay0 | 14:15 Tue 28th Mar 2017 | Science
5 Answers
A pendulum has a length (L) and time period (T) for completing one oscillation. prove that: f=1/2(L)1/2?
Gravatar

Answers

1 to 5 of 5rss feed

Best Answer

No best answer has yet been selected by inkay0. Once a best answer has been selected, it will be shown here.

For more on marking an answer as the "Best Answer", please visit our FAQ.
Your Answer...You may want to check that you have typed this correctly. Is the second 1/2 a power- ie a square root? Can you clarify what f represents please
Is f the frequency?
well it isnt is it?

the usual formula is T = ( l/g)1/2
( sqr root of l over g ) and g is the accel due to gravity

f is one over T and so F would be one over ( l/g) 1/2

and you can do it either by applying newtons second law to a plumb bob on a string
or
dimensional analysis

f has dimension T minus 1

L has dimension L to the power one
g has dimension L1, T minus 2

and if you have no idea what this means then re read the chapter this question comes from

it is straightforward - we were doing it in 1966
There used to be a 2pi thrown into it when I was a lad in 1960. I used to watch the lamps swinging in morning assembly and work out the length of the cable (assuming pi squared approx = 10).
Yes, as well as PP's g there should indeed be pi in there too.
The formula for T is easily found in any book/website on pendulums (or is it pendula). Then f is simply 1/T

1 to 5 of 5rss feed

Do you know the answer?

A Pendulum Has A Length (L) And Time Period (T) For Completing One Oscillation. Prove That: F=1/2(L)1/2?

Answer Question >>

Related Questions

Sorry, we can't find any related questions. Try using the search bar at the top of the page to search for some keywords, or choose a topic and submit your own question.