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A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
if we assume an example of crank slotted lever mechanism then if we consider only the part where we are not considering the cause of motion but the effect of motion. like we are looking for the motion we are just making rotary motion to linear motion, if we are interested we can find out the velocity and acceleration factor ram over linearly moving part. so in one word we can say that kinematics is not a consideration with cause of motion but the effect of motion.
There a lots of examples of periodic motion. A vibrating guitar string is one. A swinging pendulum is another.
The word you're looking for is.... friction
Moving air or wind is difficult to see. The motion of atoms can not bee seen with the unaided eye. One can not see the motion of tectonic plates. In these examples, the phenomena are not visible but one can measure them.
A motion along straight line is called rectilinear motion. In general, it need not be one - dimensional; it can take place in a two dimensional plane or in three dimensional space. But, it is always possible that rectilinear motion be treated as one dimensional motion, by suitably orienting axes of the coordinate system.
A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
Main application of rectilinear motion in the field of science is to find the motion, position and distance of an object. It can also be used to make comparison between the parameters of object in real field, relative velocity, relative motion and acceleration of an object can be determined. Thus, using the equations of rectilinear motion, one can take advantage in the field like factories of machinery where the terms like motion, acceleration, position of object are main functioning concern. Practically, to design something on the basis of motion, acceleration , etc , the equations of rectilinear motion are of great importance.
The only rectilinear figure is a triangle, or one composed of several triangles joined together.
The motion of a bicycle is in rectilinear motion, the object covers a certain distance along a straight line or a track. Whereas the motion of a ceiling fan when switched on is in circular motion, which is not moving from one place to another. The circular motion of the wheel gives the bicycle a rectilinear motion and the periodical motion of a blade of a fan gives the fan a circular motion. If marked in a point on the wheel of a bicycle or a blade on the fan, the distance between the centre of the wheel/fan and the marked point will remain the same as they rotate.
Here's one Basketball- When you jump for a rebound for the basketball you're in motion
examples of one syllable words
Projectile motion also known as trajectory this is one of the most famous examples of motion in two dimensions in other words a projectile experience motion in the horizontal and the vertical. the path taken by a projectile looks like a parabola (but it is not necessary for it to be a complete one ) there are some famous examples of trajectories like the motion set by a catapult or the motion set by a bullet.
if we assume an example of crank slotted lever mechanism then if we consider only the part where we are not considering the cause of motion but the effect of motion. like we are looking for the motion we are just making rotary motion to linear motion, if we are interested we can find out the velocity and acceleration factor ram over linearly moving part. so in one word we can say that kinematics is not a consideration with cause of motion but the effect of motion.
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The word "locomotion" is a noun. It refers to the ability to move from one place to another.