Lectures related to Ballistic Trajectory Analysis

Ballistics and Forces Equilibrium

Explores ballistics, forces equilibrium, and Newton's laws with practical examples and problem-solving strategies.

Mechanics: Forces and Energy

Explores the resolution of forces and energy calculations in mechanics using Newton's laws and trigonometric formulas.

Geometric Constraints and Equilibrium in Mechanics

Delves into geometric constraints and equilibrium in mechanics using a hemispherical slide as an example.

Mechanics: Equilibrium and Moments

Explains equilibrium, critical moments, and forces in mechanics, including rotational motion analysis.

Newton's Laws: Inertia and Motion

Covers Newton's first and second laws, inertia, force, momentum, and action-reaction principle in mechanics.

Mechanics: Forces and Motion

Covers the fundamental concepts of mechanics, focusing on forces and motion.

Projectile Motion: Friction Effects

Explores projectile motion with friction effects and dynamics of polar expeditions.

Newton's Laws: Ballistics and Forces Equilibrium

Explores the application of Newton's laws in ballistics and forces equilibrium, emphasizing problem-solving techniques and trajectory analysis.

Newton's Laws: Harmonic Oscillator

Covers the application of Newton's laws to harmonic oscillators with damping.

Oscillator Harmonics: Mechanics for SIE and GC

Covers the basics of oscillator harmonics and their applications in physics.

Newton's Laws: Motion and Interaction

Explores Newton's laws of motion, inertia, force, momentum, and action-reaction principle, with practical examples.

Geometric Locus and Mechanics

Covers geometric locus, cone sections, Kepler's problem, Newton's laws, and conservation laws.

Static Equilibrium: Forces and Moments in Mechanics

Covers the principles of static equilibrium and the balance of forces in mechanical systems.

Analytical Mechanics: Newton's Three Laws

Introduces the mathematical approach to analytical mechanics, emphasizing Newton's three laws for a complete description of phenomena.

Mechanics: Equilibrium Points and Stability

Explores equilibrium points and stability in mechanical systems, analyzing how systems return to or move away from their positions after disturbances.

Simple Pendulum: Constraints and Equations of Motion

Explores the analysis of a simple pendulum, discussing constraints, forces, and equilibrium points.

Example: Weight Variation

Covers weight variation in different scenarios and forces in different reference frames.

Introduction to Mechanics: Concepts and Applications

Covers fundamental mechanics concepts, emphasizing the application of Newton's laws and the importance of choosing the right reference frame for describing motion.

Mechanics: Galilean Transformation

Explores the Galilean transformation, inertial reference frames, extensive and intensive quantities, and Newton's laws in mechanics.

Trajectory Determination in Mechanics

Explains trajectory determination in mechanics, including types of trajectories and effective potential, with practical examples.