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Quadratics Review y = x 2. Quadratics Review This graph opens upwards y = x 2.

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Presentation on theme: "Quadratics Review y = x 2. Quadratics Review This graph opens upwards y = x 2."— Presentation transcript:

1 Quadratics Review y = x 2

2 Quadratics Review This graph opens upwards y = x 2

3 Quadratics Review y = x 2 y = -x 2 This graph opens downwards

4 Quadratics Review y = x 2

5 Quadratics Review y = x 2 y = 3x 2

6 Quadratics Review y = x 2 y = 3x 2 y = ¼ x 2

7 Quadratics Review

8 Projectile Motion Graphing and manipulating linear and quadratic functions.

9 Setting up our equations:

10 In general, we take our initial x-position as x = 0

11 Setting up our equations: In general, we take our initial x-position as x = 0 And we take GROUND LEVEL as y = 0

12 Setting up our equations: In general, we take our initial x-position as x = 0 And we take GROUND LEVEL as y = 0 This means that our initial y- position is often not zero!

13 Setting up our equations: Initial height above ground level

14 Setting up our equations: Initial height above ground level Horizontal velocity component is constant!

15 Setting up our equations: Initial height above ground level Horizontal velocity component is constant! Vertical velocity affected by gravity (9.81 m/s 2 )

16 Our Equations of Motion: In the horizontal direction:

17 Our Equations of Motion: In the horizontal direction: x = v x t

18 Our Equations of Motion: In the horizontal direction: x = v x t Horizontal distance traveled

19 Our Equations of Motion: In the horizontal direction: x = v x t Horizontal distance traveled Horizontal velocity

20 Our Equations of Motion: In the horizontal direction: x = v x t Horizontal distance traveled Horizontal velocity Time

21 Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0

22 Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0 Vertical position at time t

23 Acceleration due to gravity Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0 Vertical position at time t

24 Acceleration due to gravity Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0 Vertical position at time t Initial vertical velocity

25 Acceleration due to gravity Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0 Vertical position at time t Initial vertical velocity Initial height

26 Acceleration due to gravity Our Equations of Motion: In the vertical direction y = ½g t 2 + v 0y t +y 0 Vertical position at time t Initial vertical velocity Initial height Time

27 Our Equations of Motion: In the horizontal direction In the vertical direction Because both x and y are defined in terms of another parameter, t, we call these PARAMETRIC EQUATIONS y = ½g t 2 + v 0y t +y 0 x = v x t

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