A uniform circular disk whose radius R is 11.7 cm is suspended as a physical pendulum from a point on its rim. (a) What is its period? (b) At what radial distance r < R is there a pivot point that gives the same period
A uniform circular disk whose radius R is 11.7 cm is suspended as a physical pendulum...
Question 15 A uniform circular disk whose radius R is 16.7 cm is suspended as a physical pendulum from a point on its rim. (a) What is its period? (b) At what radial distance r < R is there a pivot point that gives the same period? (a) Number Units (b) Number Units
The pendulum in the figure consists of a uniform disk with radius r = 11.0 cm and mass 400 g attached to a uniform rod with length L = 410 mm and mass 250 g. (a) Calculate the rotational inertia of the pendulum about the pivot point. (b) What is the distance between the pivot point and the center of mass of the pendulum? (c) Calculate the period of oscillation.
Can you help me with thus question? I need correct answer please. R is there a pivot point that gives the same A undorm arcular disk whose radius R is 13.4 cm is suspended as a physical pendulurn from a point on its rim. (a) What is its period? (b) At what radial distance r period Units (a) Number (b) Number Units Click if you would like to Show Work for this questions Open Show Work
2. As shown below a uniform disk of radius R 10.0 cm and mass M 0.850 kg is attached to the end of a uniform rigid rod of length L = 500 mm and mass m = 0.210 kg. Take positive θ in the counterclockwise direction, and positive angular velocity ω as into the page. Assume small angle deflection (a) When the disk is suspended from a pivot as sown what is the period of its motion? (b) If this...
Chapter 15, Problem 041 The pendulum in the figure consists of a uniform disk with radius r 16.0 cm and mass 470 g attached to a uniform rod with length L = 660 mm and mass 290 g. (a) Calculate the rotational inertia of the pendulum about the pivot point. (b) What is the distance between the pivot point and the center of mass of the pendulum? (c) Calculate the period of oscillation. (a) Number Units (b) Number Units c)...
#2. [Swinging Disk] A uniform circular disk of mass M and radius R is set swinging side-to-side about a frictionless pivot P at its edge (a) What is the disk's moment of inertia about the pivot? (b) Write an expression for the net torque acting on the disk about the pivot when the disk is displaced to the right by angle θ CM (c) Write Newton's 2nd Law for Rotation for the disk when it is displaced as shown. Be...
Figure 3 Uniform disk Uniform rod 3) Figure 3 illustrates a physical pendulum comprising a uniform disk having mass M and radius R and a rod having the length R and mass M. The disk is pivotally mounted with a friction-less horizontal axis of rotation that extends through the center of mass of the disk. The rod is fixedly attached to the edge of the disk and it extends vertically downward when the pendulum is in a state of static...
Suspension point 1. Tuning a physical pendulum for highest frequency (problem 77 chapt. 13). [10] Please read the section "The pendulum" and "The physical pendulum" in chapter 13 before attempting this problem. A disk of radius R is suspended from a pivot somewhere between its centre and top edge (Fig. 13.34). Call the distance from the centre of mass to the centre of rotation.x. (a) Caclulate the moment of inertia of the disk when it is rotating about the suspension...
One simple pendulum and the physical pendulums (disk and rod) are suspended on the crossbar, as shown in figure. (a) Calculate the natural linear frequency of the simple pendulum, if the length of the simple pendulum is =1.6 m (b) Calculate the natural angular frequency of the disk. The radius L 5 of the disk is R=0.5 m; moment of inertia about an axis through the 0.3 R center of mass is ICM =mR2 (c) Calculate the natural period of...
Challenge Task 4 At what pivot point O should a uniform rod be suspended so that the frequency of its oscillations as a physical pendulum is the maximum? What is this frequency? mg Challenge Task 4 At what pivot point O should a uniform rod be suspended so that the frequency of its oscillations as a physical pendulum is the maximum? What is this frequency? mg