Curved motion is typically caused by the presence of a force that is not aligned with the direction of motion. This force can be due to factors such as gravity, electromagnetic forces, or friction. The object experiencing the curved motion will deviate from a straight path and follow a curved trajectory as a result of the applied force.
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.
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.
Objects follow a curved path when thrown due to a combination of gravity pulling them downwards and their initial forward velocity. The force of gravity causes the object to accelerate towards the ground, while the forward velocity gives it horizontal motion, resulting in a curved trajectory known as a projectile motion.
A thrown object follows a curved path due to the combination of its initial velocity and the force of gravity acting on it. The horizontal velocity propels the object forward, while the vertical force of gravity causes it to accelerate downward, resulting in a curved trajectory. This combination of horizontal and vertical motion gives rise to a curved path.
the force of gravity, which acts to accelerate the object downward towards the Earth. This force causes the object's trajectory to follow a curved path, known as a projectile motion.
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.
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.
Objects follow a curved path when thrown due to a combination of gravity pulling them downwards and their initial forward velocity. The force of gravity causes the object to accelerate towards the ground, while the forward velocity gives it horizontal motion, resulting in a curved trajectory known as a projectile motion.
a parabolic motion is a motion of an object in a curved path when it is launched...
A thrown object follows a curved path due to the combination of its initial velocity and the force of gravity acting on it. The horizontal velocity propels the object forward, while the vertical force of gravity causes it to accelerate downward, resulting in a curved trajectory. This combination of horizontal and vertical motion gives rise to a curved path.
Adhesion is the property of water causes the curved surface
A car turning on a curved is known as curvilinear motion.
the force of gravity, which acts to accelerate the object downward towards the Earth. This force causes the object's trajectory to follow a curved path, known as a projectile motion.
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.
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.
circular
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.