Lastly, from part 1, pendulum lab, we clearly would need to set the bob swinging from some angle along with considering other parameters (set up) for our experiment. With that, lets think about some follow-up questions. a. Does the period of a pendulum depend on starting angle? why or why not? b. Does the period of pendulum depend on mass? why or why not? c. Is the ratio of length to period always a guarantee for a value of g? explain.
Lastly, from part 1, pendulum lab, we clearly would need to set the bob swinging from some angle along with considering other parameters (set up) for our experiment. With that, lets think about some follow-up questions. a. Does the period of a pendulum depend on starting angle? why or why not? b. Does the period of pendulum depend on mass? why or why not? c. Is the ratio of length to period always a guarantee for a value of g? explain.
Related questions
Question
Transcribed Image Text:Lastly, from part 1, pendulum lab, we clearly would need to set the bob swinging from some angle
along with considering other parameters (set up) for our experiment. With that, lets think about
some follow-up questions.
a. Does the period of a pendulum depend on starting angle? why or why not?
b. Does the period of pendulum depend on mass? why or why not?
c. Is the ratio of length to period always a guarantee for a value of g? explain.
d. Using the predictive model that was obtained for both f(L) and T(L), determine the period
at lengths 35 cm, 40 cm, and 45 cm. Be sure to take exp(f(L)) for the exact period.
e. What is the general conclusion of the period obtained for other lengths?
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
