Derive the equation of motion for a rigid body in a single point fixed case.  

explain and derive... Euler’s equations of rotational motion of a rigid body Equations of motion of...

explain and derive... Euler’s equations of rotational motion of a rigid body Equations of motion of spring mass systems using Lagrangian Equations of motion of pendulum spring etc using Newtons law Gyroscope moment of inertia and angular velocity Angular velocity of spools spinning Angular momentum of disks rotating Spring- mass systems, particularly spring attached to heavy disk Impacts and angular velocities after impact

The dynamics equations of motion for rigid body motion is a plane is given by: ΣF...

The dynamics equations of motion for rigid body motion is a plane is given by: ΣF = ma       (translational acceleration) ΣMCM = ICMα   (rotational acceleration) where MCM is the moment about the Center of Mass, ICM is moment of inertia about the Center of Mass, and α is the angular acceleration. Prove that for static or quasi-static analysis, the sum of moments can be taken about any point, as shown below ΣF = 0       (translational equilibrium) ΣMa = 0   (rotational equilibrium)...

A rigid helium atom (of mass 4u) oscillates about a fixed point with simple harmonic motion...

A rigid helium atom (of mass 4u) oscillates about a fixed point with simple harmonic motion of amplitude 2.0 × 10-8 m and has a maximum potential energy of 5.0 × 10-30 J. What is the frequency of the oscillation?

Derive the equation for the FHM (Forced Harmonic Motion). Explain and Sketch

Derive the equation for the FHM (Forced Harmonic Motion). Explain and Sketch

Give short account about the effect of an impulse on a rigid body that is free...

Give short account about the effect of an impulse on a rigid body that is free to move in laminar motion.

Give short account about the effect of an impulse on a rigid body that is free...

Give short account about the effect of an impulse on a rigid body that is free to move in laminar motion.

A rigid body is rotating counterclockwise about a fixed axis. Each of the following pairs of...

A rigid body is rotating counterclockwise about a fixed axis. Each of the following pairs of quantities represents an initial angular position and a final angular position of the rigid body. If the object starts from rest at the initial angular position, moves counterclockwise with constant angular acceleration, and arrives at the final angular position with the same angular speed in all three cases, for which choice is the angular acceleration the highest? * 3 rad, 6 rad * 1...

Derive the mean occupation number of a single particle state with energy ϵ in a case...

Derive the mean occupation number of a single particle state with energy ϵ in a case of the Bose-Einstein and Fermi-Dirac.

The motion of a body is described by the equation 1.90 sin (0.380πt) where t is...

The motion of a body is described by the equation 1.90 sin (0.380πt) where t is in s and y is in m. (a) Find the amplitude. (b) Find the period. (c) Find the frequency. (d) Find the displacement at t = 2.50 s. (e) Find the displacement at t = 29.0 s.

A rigid body having radius of gyration at its mass center of 60 cm is constrained...

A rigid body having radius of gyration at its mass center of 60 cm is constrained to rotate about a location 100 cm from its mass center. The mass of the body is 10 kg. Ball bearings are used to reduce friction at the suspending pin joint. The damping coefficient for rotation about the pin joint is given by c = 2 N.  If the mass center of the body is displaced 3 cm to the left of its equilibrium position...