same speed.
no change in direction
translational motion and rotational motion
Objects moving in uniform circular motion will have a constant speed, and two objects with the same acceleration have a constant velocity.
The two main kinds of rectilinear motion are uniform rectilinear motion, where an object moves in a straight line at a constant speed, and non-uniform rectilinear motion, where the speed of an object changing as it moves along a straight path.
Simple Harmonic Motion (SHM) involves an oscillating motion back and forth around a central equilibrium point, while uniform circular motion involves an object moving in a circular path at a constant speed. The two are related in that the projection of uniform circular motion onto one axis can produce SHM, such as the motion of a pendulum. Mathematically, SHM can be described using trigonometric functions that are similar to those used to describe uniform circular motion.
Two-dimensional motion that is not always projectile motion would be circular motion, where an object moves in a circular path. Two-dimensional motion that is not projectile motion and does not accelerate the object could be uniform circular motion, where the speed is constant but the direction changes.
2 conditions for uniform motion: a) constant speed; b) constant direction (no turning). If either of these conditions isn't there, then the motion is "non-uniform" or "accelerated". Examples of uniform motion: a car in a drag race reaching and maintaining its maximum speed on a straight and flat race course; a space craft drifting between two galaxies; (very few real-life examples). Examples of non-uniform motion: a racing horse; merry-go-around; swing; automotive braking; throwing a softball; etc. ================================
The only thing required for an object to show uniform circular motion is a constant centripetal force. The object will have constant speed and kinetic energy, but its velocity, acceleration, momentum, and displacement will change continuously.
translational motion and rotational motion
Objects moving in uniform circular motion will have a constant speed, and two objects with the same acceleration have a constant velocity.
The two main kinds of rectilinear motion are uniform rectilinear motion, where an object moves in a straight line at a constant speed, and non-uniform rectilinear motion, where the speed of an object changing as it moves along a straight path.
Simple Harmonic Motion (SHM) involves an oscillating motion back and forth around a central equilibrium point, while uniform circular motion involves an object moving in a circular path at a constant speed. The two are related in that the projection of uniform circular motion onto one axis can produce SHM, such as the motion of a pendulum. Mathematically, SHM can be described using trigonometric functions that are similar to those used to describe uniform circular motion.
Two-dimensional motion that is not always projectile motion would be circular motion, where an object moves in a circular path. Two-dimensional motion that is not projectile motion and does not accelerate the object could be uniform circular motion, where the speed is constant but the direction changes.
Yes, force is necessary to change any motion of an object. The force can, for example be gravity or friction. Without these two factors, an object would continue moving in its original velocity (speed and direction) in eternity.
projectile motion means means the motion of a particle under the effect of gravity after being given some initial velocity by an external force. its path called trajectory is parabolic. so it includes motion in both x and y axes. the difference being that in x axis it is uniform motion and in y axis it is accelerated motion
me la pelas....!!!!!!!
To create a presentation on uniform motion and nonuniform motion, you can start by defining each concept clearly. Explain how uniform motion is when an object travels at a constant speed in a straight line, while nonuniform motion is when the speed or direction of an object changes. Use visual aids like graphs, diagrams, and real-life examples to illustrate the differences between the two types of motion. Be sure to include relevant formulas and calculations to support your explanations.
there are two types of equilibrium are: 1. static (at rest position) 2. dynamic (in uniform motion)