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Continue on Warm Up page… 9/9Convert the following: 6.3 days to seconds 7.10,095 m/sec to miles/sec 8.57 km/hr to m/sec.

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Presentation on theme: "Continue on Warm Up page… 9/9Convert the following: 6.3 days to seconds 7.10,095 m/sec to miles/sec 8.57 km/hr to m/sec."— Presentation transcript:

1 Continue on Warm Up page… 9/9Convert the following: 6.3 days to seconds 7.10,095 m/sec to miles/sec 8.57 km/hr to m/sec

2 The Equations…

3 An object is in motion if its position changes. So how do we know an object is moving? The mathematical description of motion is kinematics. The simplest kind of motion an object can experience is uniform motion in a straight line or linear motion.

4 As the car moves, it often undergoes changes in speed. For example, during an average trip to school, there are many changes in speed. Rather than the speedometer maintaining a steady reading, the needle constantly moves up and down to reflect the stopping and starting and the accelerating and decelerating.

5 Distance: How far something travels (scalar quantity) What is the difference between distance and displacement? Displacement: How far something travels in a given direction, the straight line distance from my start point to end point (vector quantity)

6 What is the distance of the biker? What is the displacement of the biker? DISTANCE DISPLACEMENT

7 A skier travels from A to B then to C then to D. What is her displacement at D? What distance does she travel? 420 m 140 m right of A

8 SCALAR vs VECTOR Quantities Scalars are quantities which are fully described by a magnitude (measurement) alone. Ex. Distance, speed, and time Vectors are quantities which are fully described by both a magnitude (measurement) and a direction. Ex. Displacement and velocity Distance traveled Displacement = AC + CB + BC = 400 m. = 200 m right of A If she jogs from A to B to C

9 Scalar vs. Vector QuantityScalar or Vector 10 m/s East 10 N to the right 35 mi/hr 13 sec. 67 yds North 25 meters Vector Scalar

10 Frame of reference Based on your perception…describing something that is moving and comparing it to something stationary –Independent and dependent variable relationship –What is frame of reference dependent on?

11 AVERAGE SPEED (scalar) If an object takes a time interval t to travel a distance d, then the average speed of the object is given by: s dist t

12 PROBLEM SOLVING GUIDELINES Make a list of given quantities (Data) Convert units if needed Make a sketch if necessary Identify what is to be determined Always solve the equation for the unknown Be consistent with units Check that the answer seems reasonable Physics problems take practice – the more you do the easier it will be!

13 Givens:Base formula/rule:Answer: Work: Diagrams: Example 1: A runner makes one lap around a 200 m track in a time of 25 s. What is the runner's average speed? d = 200 m t = 25 s Unknown: S Duncan Phillips AMCHS ‘07 ‘O6 State Gold Medal 1600 m S = d t S = d t = 8 m/s 8 m/s msms

14 Example 2: According to the World Disk Federation, on April 8,2000, Jennifer Griffin threw a Frisbee for a distance of 138.56 m to capture the woman’s record. If the Frisbee was thrown horizontally with a speed of 13.0 m/s, how long did the Frisbee remain aloft? Givens:Base formula/rule:Answer: Work: Diagrams: S = 13.0 m/s d = 138.56 m t = ? S = d t t = d S = 138.56 m 13.0 m/s = 10.658 = 10.7 s

15 Example 3: A snail can move approximately 0.30 meters per minute. How many meters can the snail cover in 15 minutes? Givens:Base formula/rule:Answer: Work: Diagrams: S = 0.30 m/min t = 15 min d = ? S = d t d = st =(15 min) (0.30m/min) = 50 = 50 m

16 AVERAGE VELOCITY (vector) Average velocity is the displacement divided by the amount of time it took to undergo that displacement. The difference between average speed and average velocity is that average speed relates to the distance traveled while average velocity relates to the displacement. V = displacement = x elapsed time t v x t x=x f -x i (found by finding the difference) -x f means final (you may also see X f ) -x i means initial (you may also see X i ) -Need to have an origin/reference point

17 Example 1: A vehicle travels 2345m in 315 sec toward the evening sun. What was its velocity?

18 Example 2: What is a vehicles displacement if it is traveling 120 km/hr north for 30 min?

19 Example 3: Houston is 200km away, how long will it take a southbound bicyclist traveling at 100 m/s?

20 Observe the animation of the three cars below. How would you describe the motion of the red car? the blue car? the green car? The rate at which velocity changes is ACCELERATION

21 ACCELERATION Acceleration is the rate of change of velocity. The change in velocity ΔV is the final velocity V f minus the initial velocity V o. Units: m/s 2

22 A positive acceleration means an increase in velocity; a negative acceleration usually means a decrease in velocity (deceleration). Note that negative acceleration is in OPPOSITE direction of the velocity

23 Example 3: An object starts from rest with a constant acceleration of 8 m/s 2 along a straight line. Find the speed at the end of 5 s Givens:Base formula/rule:Answer: Work: Diagrams: V o = 0 m/s a = 8 m/s 2 t = 5 s V f = ? V f = 0m/s + (8m/s 2 )(5s) V f = 40 m/s

24 Example 4: A truck's speed increases uniformly from 15 km/h to 60 km/h in 20 s. Determine the acceleration. Givens:Base formula/rule:Answer: Work: Diagrams: v o = 15 km/h = 4.17 m/s v f = 60 km/h = 16.7 m/s t = 20 s a = ? m/s s = 0.6265 m/s 2 = 0.63 m/s 2

25 Example 5: A bus moving at a speed of 20 m/s begins to slow at a constant rate of 3.0 m/s 2. How long before it stops? Givens:Base formula/rule:Answer: Work: Diagrams: Vo = 20 m/s Vf = 0 m/s a = - 3 m/s/s t =? t = V f – V o a t = 0 – 20 m/s -3 m/s 2 t = 6.6667 s t = 6.67 s

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