Speed
Speed is defined as a measure of the distance an object travels in a given length of time.
The average speed of an object can be determined from the equation below:
Thus, if a car travels 100 meters in 5 seconds its average speed can be calculated as;
Average speed = 100/5 = 20 meters per second
Average speed is used to give the speed of
an object over a given interval of time, if however the speed of an
object is required for a particular moment then the instantaneous speed
is used.
Instantaneous speed is the speed of an object at a given moment.
In this case the equation is similar to that of average speed but the
time taken is a much smaller interval. A speedometer in the car gives
an instantaneous speed as it gives the speed of the moving car at that
specific time, whereas the average speed would be used as a measure of
speed for the whole journey.
Velocity
Velocity is defined as a measure of the distance an object travels in a stated direction in a given length of time.
Thus velocity is speed in a stated direction. Velocity is referred to as a vector quantity because it possesses both size and direction, the size being speed.
Where speed only tells us how fast or slow an object is
moving it gives no reference of direction velocity is used as a more
complete measure as it not only gives speed but also the direction.
Two cars could be travelling with the same
speed of 100 km/h on a motorway. However, by stating one car is
travelling 100 km/h north and the other 100 km/h south do we realise
they are travelling in opposite directions, thus the velocity gives a
better indication of the motion.
The average velocity of an object can be determined from the equation below:
Acceleration
For an object moving in a straight line
where there is no change of direction the acceleration is defined as the
rate of change of velocity with time.
It is given by the following equation.
Two cars could be travelling with the same
speed of 100 km/h on a motorway. However, by stating one car is
travelling 100 km/h north and the other 100 km/h south do we realize
they are travelling in opposite directions, thus the velocity gives a
better indication of the motion.
The average speed of an object can be determined from the equation below:
In the case where an object is slowing down
(decreasing velocity) the acceleration is in the opposite direction to
the moving object. This is referred to as negative acceleration or
retardation or deceleration.
Distance-Time Graphs
Constructing graphs of an objects motion gives a better idea of the behaviour of the moving object.
A distance-time graph is constructed by
having the distance as the vertical axis and the time as the horizontal
axis. By recording the distance travelled over different intervals of
time and plotting these values a distance-time graph can be plotted.
From this plot information about the moving object can easily be
extracted.
The animation below shows a distance-time graph:
Points to remember
In a distance-time graph;
- The average speed can be determined from the slope/gradient of the graph.
- The steeper the gradient the higher the average speed.
- A horizontal line indicates the object is stationary (not moving).
Velocity-Time Graphs
A velocity-time graph is constructed by
having the velocity as the vertical axis and the time as the horizontal
axis. By recording the velocity over different intervals of time and
plotting these values a velocity-time graph can be plotted. From this
plot information about the moving object can easily be extracted.
The animation below shows a velocity-time graph.
Points to remember
In a velocity-time graph:
- The acceleration can be determined from the slope/gradient of the graph. The steeper the gradient the higher the average speed.
- A horizontal line indicates the object is moving at constant velocity.
- The area under the graph gives the total distance travelled.
No comments:
Post a Comment