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

Derive the equation of path for a 2D isotropic harmonic oscillator and explain Lissajous curves?

Derive the equation of path for a 2D isotropic harmonic oscillator and explain Lissajous curves?

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

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

Please give me a brief introduction on Hooke’s Law and Simple Harmonic Motion. Also explain why...

Please give me a brief introduction on Hooke’s Law and Simple Harmonic Motion. Also explain why is the Hooke’s Law force equation has a negative sign.

Explain the phenomenon of resonance in the context of harmonic motion. Use this to explain why...

Explain the phenomenon of resonance in the context of harmonic motion. Use this to explain why the Bay of Fundy has particularly high tides (they are, in fact, the highest in the world).

what is the physical significance of imaginary term in simple harmonic motion / wave equation ?...

what is the physical significance of imaginary term in simple harmonic motion / wave equation ? why at all we require imaginary term such as exp i(kx-wt) ?

STRING'S WAVE EQUATION Derive the wave equation for a string: The second derivative of y with...

STRING'S WAVE EQUATION Derive the wave equation for a string: The second derivative of y with time = v squared times the second derivative of y with x. Explain and Sketch the diagram.

An object undergoes simple harmonic motion along the x-axis with a period of 0.5 s and...

An object undergoes simple harmonic motion along the x-axis with a period of 0.5 s and an amplitude of 25 mm. Its position is x = 14 mm when t = 0 and it is heading in the -x-direction (negative). In your logbook write an equation of motion with all the variables identified and sketch a graph of position vs. time for the oscillator. What is the initial phase? [Work in rotational coordinates to 2 s.f. and enter nothing at...

The stacked blocks in the diagram are moving in simple harmonic motion on the end of...

The stacked blocks in the diagram are moving in simple harmonic motion on the end of the spring. The horizontal surface is frictionless, but m is held in place on M only by static friction. The blocks’ motion is described by the position equation x = (15 cm)Cos(2pt + ½ p). Calculate the minimum coefficient of static friction between the two blocks so that m remains in place on M throughout the simple harmonic motion.

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

<Vibrational motion> Explain difference between infinite potential well model and harmonic potential model.

<Vibrational motion> Explain difference between infinite potential well model and harmonic potential model.