Rotation.
Velocity and acceleration are two components used to define motion. Velocity describes the speed and direction of an object's motion, while acceleration describes how quickly an object's velocity is changing.
The Earth revolves about its axis (a 24 hour day).It also orbits the Sun in a more or less circular motion once every year(about 365 days).
If the motion is truly in the form of a circle, the phrase uniform circular motion describes it appropriately. This means that the object is in a constant state of motion about a fixed point at a constant distance from that point. Circular motion can be considered an acceleration, because an acceleration describes any change in velocity or direction. Since circular motion involves constant change in direction, the object exhibits constant acceleration.
an axis
The measure of an object's resistance to a change in its rotational motion about an axis is called inertia. It is similar to an object's resistance to a change in its linear motion, but it specifically refers to rotational motion. The greater an object's inertia, the more difficult it is to change its rotational motion.
Velocity and acceleration are two components used to define motion. Velocity describes the speed and direction of an object's motion, while acceleration describes how quickly an object's velocity is changing.
The turning motion of an object on its axis is called rotation.
The Earth revolves about its axis (a 24 hour day).It also orbits the Sun in a more or less circular motion once every year(about 365 days).
If the motion is truly in the form of a circle, the phrase uniform circular motion describes it appropriately. This means that the object is in a constant state of motion about a fixed point at a constant distance from that point. Circular motion can be considered an acceleration, because an acceleration describes any change in velocity or direction. Since circular motion involves constant change in direction, the object exhibits constant acceleration.
an axis
The measure of an object's resistance to a change in its rotational motion about an axis is called inertia. It is similar to an object's resistance to a change in its linear motion, but it specifically refers to rotational motion. The greater an object's inertia, the more difficult it is to change its rotational motion.
somthing that moves
To show motion of an object on a line graph, you can plot the position of the object on the y-axis against time on the x-axis. The slope of the line connecting the points on the graph represents the speed of the object. Steeper slopes indicate faster motion, while flatter slopes indicate slower motion.
When you graph the motion of an object, you typically put the time on the horizontal axis (x-axis) and the position, velocity, or acceleration of the object on the vertical axis (y-axis). This allows you to visualize how the object's position, velocity, or acceleration changes with time.
Rotational motion occurs when an object spins around an axis without altering its linear position.
Precession. This is when the axis of rotation of a spinning object moves in a circular motion around another axis, causing a wobbling effect.
Motion is graphed by using time on one axis and location on the other axis.