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1 of 43. 3 of 43  Distance ( d ) – describes how far an object has travelled from a starting point.  Units for distance are metres (m) or kilometres.

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Presentation on theme: "1 of 43. 3 of 43  Distance ( d ) – describes how far an object has travelled from a starting point.  Units for distance are metres (m) or kilometres."— Presentation transcript:

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3 3 of 43  Distance ( d ) – describes how far an object has travelled from a starting point.  Units for distance are metres (m) or kilometres (km)  Eg. Christchurch is 360km from Dunedin

4 4 of 43  Time ( t ) – describes how long an object takes to reach its end point.  Units for time are seconds ( s ), minutes ( min ) and hours ( hr )  Eg. It takes 17.5 min to get to school.

5 5 of 43  Speed ( v ) – used to describe how fast an object is moving.  Speed is often referred to as velocity ( v ).  Units for speed are measured as distance per unit of time m/skm/hrkm/s.

6 6 of 43  Instantaneous speed ( v ) – how fast an object is moving at a given point in time.  Average speed ( v av ) – how fast an object is moving over the entire journey.

7 7 of 43  To work out the speed of an object you need to know: d and t

8 8 of 43  The units for speed depends on the units for distance and time. distance travelled time taken average speed = d v av t

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10 10 of 43  A boy takes 1 hour to travel from his home to the cinema, a distance of 10 km. Calculate his average speed in km/hr. V av = = = 10 km/hr d v av t Cover the quantity to be calculated. dtdt 10 km 1 h

11 11 of 43  A boy takes 1 hour to travel from his home to the cinema, a distance of 10 km. Calculate his average speed in m/s. V av = = = 2.8 m/s d v av t Cover the quantity to be calculated. dtdt 10 000 m 3 600 s

12 12 of 43  A family set off from home and walk at an average speed of 3.6 km/h. How far will they travel in two hours? d = V av x t = 3.6 km/h x 2 h = 7.2 km d v av t Cover the quantity to be calculated.

13 13 of 43  How long would it take a woman to walk 10 km, if her average speed was 5.4 km/h? t = = = 1.85 h d v av t Cover the quantity to be calculated. d V av 10 km 5.4 km/h

14 14 of 43  Go to website.website

15 15 of 43  This graphing experiment shows an animation of a car travelling along a straight road. 1. Copy the results table shown on the next slide and complete it as the movie is played. 2. Record the distance the car has travelled every five seconds. 3. Plot a graph of your results.

16 16 of 43 Time/secondsDistance/metres 0 5 10 15 20 25 30 35 40 45 50 55

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18 18 of 43 Time/secondsDistance/metres 00 516 1076 15186 20234 25484 30634 35784 40904 45974 50994 55994

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20 20 of 43 The car has stopped. The graph is flat – the distance of the car from the start point is not changing. The graph is straight – there is no change in speed. The speed of the car is changing – the graph is not flat. The slope of the graph is less steep as the car begins to slow down. The car is starting to move. The curve shows that the speed is changing. The curve is upwards as the car accelerates at the start of the journey. The car is going fast but at a constant speed. The graph is straight in this part of the journey.

21 21 of 43  The speed of the car can be calculated by looking at the slope (gradient) of the distance/time graph.  Speed is “ distance travelled” divided by “time taken”.  These values can be read off the distance/time graph at different points, and this is the same as the gradient of the graph.

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23 23 of 43  Acceleration (a) – shows the change in speed over a period of time.  Acceleration can be both positive (acceleration) and negative (deceleration).

24 24 of 43  The units for acceleration depends on the units for speed and time. final speed - initial speed time taken acceleration = ∆V∆V a ∆t∆t

25 25 of 43  A car speeds up from a stop light to a speed of 15.3 m/s in just 4 seconds. Calculate the acceleration of the car. a = = = 3.8 m/s/s or m/s 2 ∆V∆V a ∆t∆t Cover the quantity to be calculated. ∆V∆ t∆V∆ t 15.3 m/s 4 s

26 26 of 43  As she climbs a hill, a cyclist slows down from 7 m/s to 3 m/s in 10 seconds. What is her acceleration?. a = = = - 0.4 m/s 2 ∆V∆V a ∆t∆t Cover the quantity to be calculated. ∆V∆ t∆V∆ t - 4 m/s 10 s

27 27 of 43  While traveling along a highway a truck goes from 100 km/hr to 60 km/hr in 8 seconds. What is the truck’s acceleration?. a = = = - 1.4 m/s 2 ∆V∆V a ∆t∆t Cover the quantity to be calculated. ∆V∆ t∆V∆ t 8 s - 40 km/h - 11.1 m/s

28 28 of 43  The slope of a speed-time graph gives an objects acceleration.

29 29 of 43  The area under the graph gives us the distance travelled

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