Lecture

Kinematics: Coordinate Systems and Trajectories

Related lectures (28)

Kinematics: Reference Frames and Coordinates

Introduces kinematics, reference frames, trajectories, and coordinates in physics, emphasizing their importance in analyzing object motion.

Coordinate Systems: Polar, Cylindrical, Spherical

Covers position, velocity, and acceleration in polar, cylindrical, and spherical coordinate systems.

Introduction to Kinematics

Covers the basics of kinematics, including motion description, reference frames, trajectories, and velocity concepts.

Kinematics: Position, Velocity, Acceleration, Trajectory

Covers the fundamental concepts of kinematics, including reference frames, position vectors, velocity, acceleration, and trajectories.

Motion Analysis: Cartesian and Polar Coordinates

Covers the analysis of motion using Cartesian and polar coordinates, focusing on kinematics and acceleration components.

Rotation of Solids: Kinematics and Dynamics

Covers the kinematics and dynamics of solids in rotation, focusing on velocity and acceleration in different points within a solid.

Solid Mechanics: Motion Analysis

Explores the analysis of motion in solid mechanics, covering velocity, acceleration, and kinematics of solid bodies.

Kinematics: Basics and Coordinates

Introduces the basics of kinematics, covering reference frames, trajectories, and coordinate systems.

Motion in Two and Three Dimensions

Explores motion in two and three dimensions, gravity effects, and vector dot products.

1D Kinematics: Position and Velocity

Introduces 1D kinematics concepts like position, velocity, and displacement vectors for point mass motion.

Kinematics: Reference Frames and Coordinates

Introduces reference frames, coordinates, point mass, trajectory, velocity, acceleration, and motion with constant acceleration.

Coordinate Systems: Polar, Cylindrical, and Spherical

Explains polar, cylindrical, and spherical coordinates in physics, emphasizing their advantages in simplifying motion analysis.

Galilean Transformations

Explains Galilean transformations, inertial reference frames, and Newton's first law of motion in classical mechanics.

Kinematics: Position, Velocity, Acceleration

Covers the fundamental concepts of kinematics, including position, velocity, and acceleration in different coordinate systems.

Central Motion: Forces and Kinetics

Explores the moment of a force, angular momentum, and central motion, including historical perspectives and mathematical representations.

Trajectories and Motion Equations

Covers trajectories, motion equations, velocity properties, acceleration components, and integration of motion equations.

Advanced Physics I

Explores kinematics, vectors, non-Cartesian coordinates, and the motion of charged particles in electric and magnetic fields.

General Physics: Mechanics

Covers mechanics concepts in different coordinate systems, explaining position, velocity, and acceleration vectors.

Projectile Motion: Frictional Effects

Discusses projectile motion with friction and systems with inclined planes and pulleys.

Polar Coordinates: Position and Velocity

Explores polar coordinates, position, velocity, and acceleration vectors in Cartesian and polar systems, including cylindrical and spherical coordinates.