An object of mass m attached to a spring of force constant k oscillates with simple harmonic motion.

? Welcome to Physics Calculations! ? In this intriguing video, we're diving deep into the world of physics to uncover the secrets of simple harmonic motion. Whether you're a student striving for excellence in your physics studies or someone with a curious mind eager to explore the mysteries of oscillations, you're about to embark on an enlightening journey! ? Video Overview ? Have you ever wondered how an object attached to a spring oscillates with simple harmonic motion? In this video, we're going to unravel this fascinating phenomenon and answer a crucial question: "What is the object's velocity when its potential energy is 2/3 of the total mechanical energy?" Here's what we'll cover: ? Explaining simple harmonic motion and its principles. ? Defining the maximum displacement (A) and total mechanical energy (E) of the system. ? Calculating potential energy and understanding its significance. ? Determining the object's velocity at 2/3 of its potential energy. By the end of this video, you'll have a clear understanding of how energy is distributed in oscillatory systems and how to calculate velocity at a specific potential energy value. ? Video Sections ? [Timestamp] - Introduction to Simple Harmonic Motion [Timestamp] - Defining A and E in Oscillatory Systems [Timestamp] - Calculating Potential Energy