Relativity Demystified – Forget Newton’s apple; we’re in Einstein’s yard now. The Special Theory of Relativity rips up classical mechanics and replaces Galilean transformations with Lorentz. We’re talking time dilation, length contraction, and simultaneity — the mind-bending stuff that makes GPS work and makes you late for light-speed happy hour.

• System Dynamics & Collisions – From single particles to systems in motion, we dive into center of mass, angular momentum, and real-world collisions. Yes, even missile-to-missile impacts — the kind of math where spherical Earth isn’t just round, it screws with your coordinates if you don’t play nice.

• Rocket Science & Orbital Mechanics – Strap in. We break down thrust, multistage rocket optimization, escape velocity, and interplanetary trajectories. Learn why rockets bleed mass like a drunk at last call and how conic section orbits shape every launch and planetary flyby.

• Rotational Dynamics – Rigid bodies don’t spin simple. We’re slinging Euler angles, inertia tensors, and transformation matrices — the math that keeps satellites oriented and keeps your machinery from tearing itself apart. The rotation operator? Think of it as God’s own torque wrench.

• Vibration Analysis – The world shakes, and engineers measure it. From Fourier series to Laplace transforms, we tame oscillations across single, multi, and continuous DOF systems. Applications? Seismometers, accelerometers, rotating shaft whirls, nonlinear chaos — basically, if it vibrates, we decode it.

relativity explained

special theory of relativity

rocket science podcast

orbital mechanics

vibration analysis

mechanical engineering podcast

system dynamics

angular momentum

rigid body rotation

time dilation and length contraction explained

Lorentz vs Galilean transformation simple

missile collision dynamics analysis

thrust equation rocket science basics

escape velocity and interplanetary trajectory

Euler angles and inertia tensor tutorial

Fourier series in vibration analysis

Laplace transform for mechanical systems

vibration analysis for engineers

nonlinear vibration and rotating shaft whirl