Petek said:Here's a parametric equation for a helix:
h(t) = (a cos(t), a sin(t), bt)
where a > 0, b [tex]\neq[/tex] 0.
The first two coordinates describe a circle of radius a, and the third coordinate describes a rise (or fall) at a constant rate.
HTH
Petek
A helical pathway movement is a type of motion in which an object follows a curved path, resembling a helix or spiral. This type of movement is often seen in various physical systems, such as the motion of planets around the sun or the motion of particles in a magnetic field.
Vector calculus is used to describe and analyze the motion of an object following a helical pathway. Specifically, the displacement, velocity, and acceleration vectors can be used to calculate the object's position and change in position over time.
Spherical coordinates are a system of coordinates used to describe the position of a point in three-dimensional space. They consist of a radial distance, an azimuth angle, and an elevation angle, which are measured from a fixed point (the origin) and two fixed directions (the reference axes).
Spherical coordinates are often used to describe the motion of an object following a helical pathway, as they provide a convenient way to represent the object's changing position and orientation in three-dimensional space. They can also be used to calculate the object's displacement, velocity, and acceleration vectors.
Cylindrical and spherical coordinates are two different systems used to describe the position of a point in three-dimensional space. The main difference between them is their reference axes - cylindrical coordinates use a fixed axis and a rotating angle, while spherical coordinates use two rotating angles and a fixed axis. Additionally, cylindrical coordinates are often used to describe circular or cylindrical motion, while spherical coordinates are more commonly used for spherical or helical motion.