The length of the path followed during motion is the total distance covered by an object moving from one point to another. It can be calculated by summing up the distances between consecutive points along the path.
The measure that quantifies the total distance traveled by an object during its motion is known as the "path length" or "arc length." This distance is calculated by integrating the magnitude of the velocity vector along the path traveled by the object.
The actual path covered is the distance traveled from the starting point to the ending point, taking into account any turns or deviations in the route. It is the total length of the route followed during the journey.
A path length in physics refers to the distance traveled by an object along a specific route from one point to another. It can be defined for both linear and curved paths and is a fundamental concept in understanding the motion of objects. The path length may differ from the actual displacement of the object if the path is not a straight line.
The curved path followed by balls Beach and C are examples of projectile motion, which is a type of motion where an object is thrown or projected into the air and moves in a curved path under the influence of gravity. This type of motion can be described by the horizontal and vertical components of the object's velocity and acceleration.
The path of the object is straight during uniform motion .
The measure that quantifies the total distance traveled by an object during its motion is known as the "path length" or "arc length." This distance is calculated by integrating the magnitude of the velocity vector along the path traveled by the object.
The actual path covered is the distance traveled from the starting point to the ending point, taking into account any turns or deviations in the route. It is the total length of the route followed during the journey.
The path of the object is straight during uniform motion .
A path length in physics refers to the distance traveled by an object along a specific route from one point to another. It can be defined for both linear and curved paths and is a fundamental concept in understanding the motion of objects. The path length may differ from the actual displacement of the object if the path is not a straight line.
The curved path followed by balls Beach and C are examples of projectile motion, which is a type of motion where an object is thrown or projected into the air and moves in a curved path under the influence of gravity. This type of motion can be described by the horizontal and vertical components of the object's velocity and acceleration.
The path of the object is straight during uniform motion .
The force of gravity is most responsible for the path of an object during projectile motion. It causes the object to follow a curved trajectory as it is pulled towards the center of the Earth.
In Powerpoint, it is a line that can be drawn on the screen that an item can follow during an animation in a presentation.
Curve linear is antonym to linear. Circular is one among many curvelinear motions. In case of circular there will be a constant radius but in curvelinear radius would change at every instant
the path what is followed by the principal stress.
gravity
The two things that cause projectile motion are gravity, which acts vertically, and an initial horizontal velocity. These two factors combined result in the curved path followed by a projectile.