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Distance-Time Graph for Uniform Motion

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Presentation on theme: "Distance-Time Graph for Uniform Motion"— Presentation transcript:

1 Distance-Time Graph for Uniform Motion
                                                                                                                                                                Distance-Time Graph for Uniform Motion                                                                                                                                                                 Distance-Time Graph for Uniform Motion Take time along x-axis and distance along y-axis.

2 Analyse the given data and make a proper choice of scale for time and distance.

3 Plot the points.

4 Join the points.

5 Consider any two points (A, B) on the straight line graph.

6 Draw perpendiculars from A and B to x and y axes.

7 Join A to C to get a right angled triangle ACB.
Write the title of the graph.

8 Consider another two points P and Q on the graph and construct a right-angled triangle PRQ. 

9 Distance-Time Graph for Non - Uniform Motion
Take time along x-axis and distance along y-axis.

10 Analyse the given data and make a proper choice of scale for time and distance.

11 Plot the points.

12 Join the points.

13 Speed - Time Graph-uniform speed
Distance traveled by the car S = v x t   But 60 km/h = OC = breadth of the rectangle OABC                5h = OA = length of the rectangle OABC  i.e., the distance covered by the car = length x breadth = 300 km.  To calculate the distance covered by a moving object from a speed-time graph we just have to find the area enclosed by the speed-time graph and the time axis.

14 Velocity-Time Graph  Take time along x-axis and velocity along y-axis.

15 Analyse the given data and make a proper choice of scale for x and y axes. 

16 Join the points

17

18 Consider any two points A and B on the straight-line graph.

19 Draw perpendiculars from A and B to x and y-axes.

20 Join A to C, ACB forms a right-angled triangle.

21

22 a) Increasing acceleration
 Uniform Acceleration                         Non-uniform Acceleration

23 Non-uniform Retardation                  Uniform Retardation

24  Zero Acceleration

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