A uniform thin stick of length L=2.25 m and mass m=1.75 kg is undergoing small oscillations...

A uniform thin stick of length L=3.00 m and mass m=2.00 kg is undergoing small oscillations...

A uniform thin stick of length L=3.00 m and mass m=2.00 kg is undergoing small oscillations about a pivot point x away from its center of mass. For the oscillation period to be the minimum possible value, what should be the value of x? Enter the value in meters.

The uniform thin rod in the figure below has mass M = 2.00 kg and length...

The uniform thin rod in the figure below has mass M = 2.00 kg and length L = 2.87 m and is free to rotate on a frictionless pin. At the instant the rod is released from rest in the horizontal position, find the magnitude of the rod's angular acceleration, the tangential acceleration of the rod's center of mass, and the tangential acceleration of the rod's free end. HINT An illustration shows the horizontal initial position and vertical final position...

A uniform rod of length L and mass M is free to swing about an axis...

A uniform rod of length L and mass M is free to swing about an axis that is perpendicular to the rod. The axis is a distance x from the rod's center of mass. a) Find the period of oscillations for small angles as a function of L and x with appropriate constants. b) make a sketch of the period as a function of x. If you use a spread sheet you may assume that L=1.0 m, then your graph...

Consider a thin rod of length L=2.58m and mass m1=1.27 kg, and a hollow (empty) sphere...

Consider a thin rod of length L=2.58m and mass m1=1.27 kg, and a hollow (empty) sphere of radius R=0.16 m and mass of m2=0.82 kg. Sphere is at one end of the rod and the other end of the rod is fixed and oscillate like a pendulum (simple harmonic oscillations, SHM) with small-angle oscillations. When ? ?? ?????, ???? ≈ ?. a) Derive a second order differential equation for this pendulum to confirm the oscillation is SHM.(b) Compare the above...

A uniform plank of mass 2.53 kg and length 21.5 cm is pivoted at one end....

A uniform plank of mass 2.53 kg and length 21.5 cm is pivoted at one end. A spring of force constant 403 N/m is attached to the center of the plank, as shown in the figure. The height of the pivot has been adjusted so that the plank will be in equilibrium when it is horizontally oriented. Find the period of small oscillation about the equilibrium point. Answer in units of s.

A thin rod of length ll swings at small amplitude with the pivot point at one...

A thin rod of length ll swings at small amplitude with the pivot point at one end, with a thick rod of length LL and radius RR attached on the other end. The thin rod has a mass mm = 0.14 kg, and the thick rod a mass of MM = 1.36 kg. The radius of the thick rod is 0.09 m. If ll = 0.86 m and LL = 0.06 m, what is the period of oscillation? Answer in...

A stick of mass M and length L is pivoted at one end. A small mass...

A stick of mass M and length L is pivoted at one end. A small mass m<M is attached to the right-hand end of the stick. The stick is held horizontally and released from rest. Given that the rotational inertia of a uniform rod pivoted around one end is 1/3ML^2, determine the rotational inertia of the described system. Calculate the angular velocity of the system when it reaches a vertical position. You cannot use rotational kinematics here because angular acceleration...

pendulum of mass m= 0.8 kg and length l=1 m is hanging from the ceiling. The...

pendulum of mass m= 0.8 kg and length l=1 m is hanging from the ceiling. The massless string of the pendulum is attached at point P. The bob of the pendulum is a uniform shell (very thin hollow sphere) of radius r=0.4 m, and the length l of the pendulum is measured from the center of the bob. A spring with spring constant k= 7 N/m is attached to the bob (center). The spring is relaxed when the bob is...

A uniform rod of mass M = 20 kg and length L = 5m is bent...

A uniform rod of mass M = 20 kg and length L = 5m is bent into a semicircle. What is the gravitational force exerted by the rod on a point mass m = 0.1 kg located at the center of the circular arc? If the answers are going to be written please do it legible, thanks

A uniform rod of mass M = 20 kg and length L = 5m is bent...

A uniform rod of mass M = 20 kg and length L = 5m is bent into a semicircle. What is the gravitational force exerted by the rod on a point mass m = 0.1 kg located at the center of the circular arc? Please show all work and step by step, thank you!