Have the force at a constant right angle to the motion.
(Centripetal force always acts at right angles to the motion of the object, this is what makes it go around in a circle)
Circular Motion -a motion along a circular path or the motion of an object in a circular Example -blades of a ceiling fan when the fan is switched on. or The motion of body along the circular path is called circular motion
Circular Motion
Circular Motion
It is not. However, the projection of circular motion on a line is.
if an object moves along a circular path, the only change in its velocity is due to the change in the direction of the motion. The motion of the object moving along the circular path is, which is a uniform circular motion, is therefore an accelerated motion:):):):/
Uniform circular motion.
if an object moves along a circular path, the only change in its velocity is due to the change in the direction of the motion. The motion of the object moving along the circular path is, which is a uniform circular motion, is therefore an accelerated motion:):):):/
A force diagram is important in analyzing circular motion because it helps to identify and understand the forces acting on an object moving in a circular path. By visually representing these forces, such as centripetal force and friction, the diagram can provide insights into the dynamics of the motion and help determine the factors influencing the object's circular trajectory.
The circular motion of the fan blades creates airflow by pushing air in a specific direction. As the blades rotate, they draw air in and then push it outwards, creating a continuous airflow that helps to circulate air in a room and provide cooling. This circular motion is essential for the fan to be effective in cooling a space.
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
translational motion and rotational motion
no, in uniform circular motion the magnitude of your velocity, and therefore your acceleration is constant. in general this does not need to be true. consider this simple experiment, in a children's playground, go to a roundabout. stand on the roundabout and kick once, then wait for your motion to completely stop before kicking again. your motion is still circular, but neither velocity or acceleration is constant.