Q7. How does your distance-time graph look like?
Q8. How does you graph look like? How is this
different from your graph in Figure 12?Q8.How does you graph look like ? How is this different from your graph in Figure 12 ? How will you interpret this graph in terms of the speed and acceleration of the moving car ? Q10 Differentiate Speed from Acceleration
Answers & Comments
Answer:
Explanation:
'Distance' is the total length travelled by an object. The standard unit is the 'metre'.
A distance-time graph shows how far an object has travelled in a given time.
Distance is plotted on the Y-axis (left) and Time is plotted on the X-axis (bottom).
Below you can see that the object represented by the blue line has travelled 10m in 2s whereas the object represented by the red line has only travelled 4m in this time and is therefore travelling more slowly.
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'Straight lines' on a distance-time graph tell us that the object is travelling at a constant speed. Note that you can think of a stationary object (not moving) as travelling at a constant speed of 0 m/s. On a distance-time graph, there are no line sloping downwards. A moving object is always 'increasing' its total length moved with time.
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'Curved lines' on a distance time graph indicate that the speed is changing. The object is either getting faster = 'accelerating' or slowing down = 'decelerating'. You can see that the distanced moved through each second is changing.
Calculating Speed from a Distance-Time Graph
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The average speed can be calculated for any part of a journey by taking the change in distance and dividing by the change in time for that part of the journey. You can even do this for a curved line where the speed is changing, just remember that your result is the average speed in this case. You may also notice that the formula for calculating speed is sometime written with small triangles Δ (the Greek letter delta) in front of d (distance) and t (time). The Δ is just short hand for "change in". Therefore Δt means "change in time"
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Displacement
'Displacement' is the length between start and stop positions and includes a direction. Displacement is a vector quantity.
pathwayz-If an object goes back to where is started in certain time, then its displacement is zero. Its distance would be the total length of the journey.
A displacement-time graph is able to show if an object is going backwards or forwards. Usually, a line with a negative gradient would indicate motion going backwards.
This cannot be shown on a distance-time graph.
Image Source: http://ocw.uci.edu/
Describing the motion of an object
In most mechanical problems we are asked to determine the connection between speed, position and time. Will two cars crash if they are heading towards each other as they apply brakes at a certain time?
To describe the position of a moving object, you have to specify its position relative to a particular point or landmark that is understood by everyone. Along a straight line, you only need the position of the landmark and how far the object is from the landmark left or right (or east or west). 5 metres from the door does not mean anything without giving some indication of direction (inside or out for example).
Now left or right is not a good distinction as not everyone can agree with it. In Physics, we specify the origin landmark at 0 and the points either side of it are either positive or negative numbers (in units of metres).
pathwayz-When describing the motion of an object try to be as detailed as possible. For instance...
During 'Part A' of the journey the object travels +8m in 4s. It is travelling at a constant velocity of +2ms-1
During 'Part B' of the journey the object travels 0m in 3s. It is stationary for 3 seconds
During 'Part C' of the journey the object travels -8m in 3s. It is travelling at a 'constant velocity' of '-2.7ms-1' back to its starting point, our reference point 0.
Why can we use 'velocity' instead of 'speed'? Because by labelling our two directions + and -, we now know which way our object is moving in 1-dimension, forwards or backwards.
i hope is correct
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Time of travel si Distance travelled
B. Usiog motion graphs
5 Measure the distance travelled by the cur
after 1 second, 2 seconds.
and so on by measuring the distance between
drops 0 and 1, 0 and 2, and so on
Enter your measurements in Table 3 on the right
6 Plot the values in Table 3 as points on the graph in
Figure 12 on the right
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