What is velocity time graph
Asked by  5th May, 2012, 09:28: PM
the shape of a velocity versus time graph reveals pertinent information about an object's acceleration. For example, if the acceleration is zero, then the velocitytime graph is a horizontal line (i.e., the slope is zero). If the acceleration is positive, then the line is an upward sloping line (i.e., the slope is positive). If the acceleration is negative, then the velocitytime graph is a downward sloping line (i.e., the slope is negative). If the acceleration is great, then the line slopes up steeply (i.e., the slope is great). This principle can be extended to any motion conceivable. Thus the shape of the line on the graph (horizontal, sloped, steeply sloped, mildly sloped, etc.) is descriptive of the object's motion. In this part of the lesson, we will examine how the actual slope value of any straight line on a velocitytime graph is the acceleration of the object.
Consider a car moving with a constant velocity of +10 m/s. A car moving with a constant velocity has an acceleration of 0 m/s/s.
The velocitytime data and graph would look like the graph below. Note that the line on the graph is horizontal. That is the slope of the line is 0 m/s/s. In this case, it is obvious that the slope of the line (0 m/s/s) is the same as the acceleration (0 m/s/s) of the car.
Time
(s) Velocity
(m/s)
0
10
1
10
2
10
3
10
4
10
5
10
So in this case, the slope of the line is equal to the acceleration of the velocitytime graph. Now we will examine a few other graphs to see if this is a principle that is true of all velocity versus time graphs.
Now consider a car moving with a changing velocity. A car with a changing velocity will have an acceleration.
The velocitytime data for this motion show that the car has an acceleration value of 10 m/s/s. (In Lesson 6, we will learn how to relate positiontime data such as that in the diagram above to an acceleration value.) The graph of this velocitytime data would look like the graph below. Note that the line on the graph is diagonal  that is, it has a slope. The slope of the line can be calculated as 10 m/s/s. It is obvious once again that the slope of the line (10 m/s/s) is the same as the acceleration (10 m/s/s) of the car.
Time
(s) Velocity
(m/s)
0
0
1
10
2
20
3
30
4
40
5
50
the shape of a velocity versus time graph reveals pertinent information about an object's acceleration. For example, if the acceleration is zero, then the velocitytime graph is a horizontal line (i.e., the slope is zero). If the acceleration is positive, then the line is an upward sloping line (i.e., the slope is positive). If the acceleration is negative, then the velocitytime graph is a downward sloping line (i.e., the slope is negative). If the acceleration is great, then the line slopes up steeply (i.e., the slope is great). This principle can be extended to any motion conceivable. Thus the shape of the line on the graph (horizontal, sloped, steeply sloped, mildly sloped, etc.) is descriptive of the object's motion. In this part of the lesson, we will examine how the actual slope value of any straight line on a velocitytime graph is the acceleration of the object.
Consider a car moving with a constant velocity of +10 m/s. A car moving with a constant velocity has an acceleration of 0 m/s/s.
The velocitytime data and graph would look like the graph below. Note that the line on the graph is horizontal. That is the slope of the line is 0 m/s/s. In this case, it is obvious that the slope of the line (0 m/s/s) is the same as the acceleration (0 m/s/s) of the car.

So in this case, the slope of the line is equal to the acceleration of the velocitytime graph. Now we will examine a few other graphs to see if this is a principle that is true of all velocity versus time graphs.
Now consider a car moving with a changing velocity. A car with a changing velocity will have an acceleration.
The velocitytime data for this motion show that the car has an acceleration value of 10 m/s/s. (In Lesson 6, we will learn how to relate positiontime data such as that in the diagram above to an acceleration value.) The graph of this velocitytime data would look like the graph below. Note that the line on the graph is diagonal  that is, it has a slope. The slope of the line can be calculated as 10 m/s/s. It is obvious once again that the slope of the line (10 m/s/s) is the same as the acceleration (10 m/s/s) of the car.

Answered by  7th May, 2012, 11:42: AM
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