Question 2: Harmonic Oscillators (Undamped Motion), and Archimedean principles (2nd Order ODE) • For a pendulum, find the frequency of oscillation of a pendulum of length L, neglecting air resistance and weight of the rod, and assuming 0 to be small, that sine - 0 • In the Archimedean principle, it states that the buoyant force = the weight of the water displaced by that body that is either partly or totally submerged. A cylindrical buoy of diameter = 60cm is shown. When depressed and released, the buoy vibrates with a %3D period of 2 seconds. What is the weight of the buoy?

Question 2: Harmonic Oscillators (Undamped Motion), and Archimedean principles (2nd Order ODE) • For a pendulum, find the frequency of oscillation of a pendulum of length L, neglecting air resistance and weight of the rod, and assuming 0 to be small, that sine - 0 • In the Archimedean principle, it states that the buoyant force = the weight of the water displaced by that body that is either partly or totally submerged. A cylindrical buoy of diameter = 60cm is shown. When depressed and released, the buoy vibrates with a %3D period of 2 seconds. What is the weight of the buoy?

Physics for Scientists and Engineers, Technology Update (No access codes included)

9th Edition

ISBN:9781305116399

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter14: Fluid Mechanics

Section: Chapter Questions

Problem 14.74AP: Review. A long, cylindrical rod of radius r is weighted on one end so that it floats upright in a...

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