It may be possible to simplify certain types of motion along certain curved paths to a single variable, making it mathematically one dimensional, by a clever choice of coordinate systems.
Ordinarily, though, and for arbitrary curves as opposed to conic sections, it's most likely not.
No, the motion of a body along a curved path is not translational, as translational motion refers to straight-line motion. The motion of a body along a curved path involves a combination of translational and rotational motion due to changes in direction.
Gravity
The three types of translational motion are rectilinear motion (in a straight line), curvilinear motion (in a curved path), and circular motion (along a circular path).
Curved motion is the movement of an object in a curved path rather than a straight line. It occurs when the object changes direction continuously as it travels. Examples include circular motion or motion along a parabolic trajectory.
Curvilinear motion refers to the movement of an object along a curved path, where its direction changes continuously. This type of motion is often seen in scenarios where an object is not moving in a straight line, but rather following a curved trajectory. Examples include a car moving along a winding road or a satellite orbiting around a planet.
No, the motion of a body along a curved path is not translational, as translational motion refers to straight-line motion. The motion of a body along a curved path involves a combination of translational and rotational motion due to changes in direction.
Gravity
Curvilinear motion is the motion of an object in a curved path rather than a straight line. It involves changes in both speed and direction as the object moves along the curve. Examples of curvilinear motion include circular motion, parabolic motion, and elliptical motion.
The three types of translational motion are rectilinear motion (in a straight line), curvilinear motion (in a curved path), and circular motion (along a circular path).
Curved motion is the movement of an object in a curved path rather than a straight line. It occurs when the object changes direction continuously as it travels. Examples include circular motion or motion along a parabolic trajectory.
Curvilinear motion refers to the movement of an object along a curved path, where its direction changes continuously. This type of motion is often seen in scenarios where an object is not moving in a straight line, but rather following a curved trajectory. Examples include a car moving along a winding road or a satellite orbiting around a planet.
Curvilinear motion is the type of motion where an object follows a curved path and its direction is constantly changing. It can occur in various forms such as circular, elliptical, or parabolic motion. It is commonly seen in phenomena like planetary orbits or objects moving along a curved track.
The types of translational motion include rectilinear motion (motion along a straight line), curvilinear motion (motion along a curved path), and general plane motion (combination of translation and rotation).
a parabolic motion is a motion of an object in a curved path when it is launched...
it follows a curved path
Projectile motion, where an object is launched into the air and moves in a curved path under the influence of gravity. Circular motion, where an object moves in a circular path around a fixed point, such as a car navigating a curve on a road.
An example of curvilinear motion is a car moving along a winding road. As the car navigates the bends and curves of the road, its motion follows a curved path rather than a straight line. This type of motion involves changes in both speed and direction as the car moves along the curved road.