Presentation is loading. Please wait.

Presentation is loading. Please wait.

Biomechanics Linear motion

Published byClement Todd Modified over 5 years ago

Similar presentations

Presentation on theme: "Biomechanics Linear motion"— Presentation transcript:

1 Biomechanics Linear motion

2 June 2013

3 June 2013

4 June 2013

5 Pure linear motion

6 Linear motion Linear motion movement of a body in a straight line or curved line, where all parts move the same distance, in the same direction over the same time.

7 starter Acceleration Distance Deceleration Speed Displacement Velocity
State the key concepts Distance Speed Displacement Velocity Acceleration Deceleration

8

9 Distance DISPLACEMENT Shortest line from the start to finish.
Total length of the path covered. DISPLACEMENT Shortest line from the start to finish. As the crow flies.

10 Recap How do we calculate? Speed Velocity Acceleration

11 speed SPEED Speed = rate of change in distance.
Speed is measured in metres per second (m/s) speed

12 VELOCITY Velocity = displacement / time taken
Displacement is measured in metres (m) Time taken is measured in seconds (s) Velocity is measure in metres per second (m/s) Velocity is the rate of change in displacement.

13 Acceleration = (final velocity – initial velocity) / time taken
Time is measured in seconds (s) Change in Velocity is measured in metres per second (m/s) Acceleration is measured in metres per second second (m/s/s) Acceleration is the range of velocity.

14 deceleration Deceleration occurs when the rate of change is velocity is negative or there is a decrease in velocity over time.

15 Distance: calculate the distance of 40 lengths of a 25m swimming pool.

16 Displacement- calculate the displacement of a 1km swim in the 25m pool.

17 Speed Dafne Schippers broke the 200m record with a time of 21. 63s
Speed Dafne Schippers broke the 200m record with a time of 21.63s. The distance from the start to the finish. Calculate the average speed.

18 Velocity is measured in m/s Usain bolt broke the world record 100m in 2009, time 9.58s. Calculate the average velocity.

19 Acceleration is measured in m/s/s
Acceleration is measured in m/s/s. When Usain Bolt ran the 100m his splits were 20m 2.98s. His velocity at 20m was 6.92 m/s his velocity at 0m was 0m/s. calculate the acceleration.

20 Deceleration as the sprinter crosses the line they slow up by sitting up and stop pedalling. When they cross the line they are travelling at 9m/s two seconds later they are travelling at 5m/s. calculate the deceleration as the rate of change in velocity.

21 Answers Factor Answer Distance = 1km (1000m) Displacement =0m Speed
= (distance /time taken) (200m/21.63s) = 9.25m/s Velocity = (displacement / time taken) (100m/9.58s) m/s Acceleration = (Final velocity – initial velocity) / time taken = 2.39m/s/s/ (20m/2.89s) = 6.92 m/s (6.92 – 0.0) / 2.89s. = 2.39m/s/s Deceleration = (final velocity – initial velocity / time) 5 m/s – 9 m/s /2s = -2m/s/s

22 Graphs of Linear Motion
Graphs of Linear Motion can be recorded using three graphs: Distance / Time Speed / Time Velocity / Time With ALL Linear Motion graphs, time is along the horizontal axis

23 Graphs of distance time
REST ACCELERATION CONSTANT SPEED DECELERATION

24 Distance time GRAPH

25 Speed time graphs

26 Speed time graph final velocity- initial velocity / time taken
Speed time graph final velocity- initial velocity / time taken. Acceleration calculation (8m/s – 3 m/s / time taken =2.5m/s

27 Velocity time graph

28 Velocity/time graph

29 Describe what is happening in the diagram.

30 Fraser-Pryce (time in seconds)
Task 2 Distance (m) Bolt (time in seconds) Fraser-Pryce (time in seconds) 0m 0.00 20m 2.88s 3.03s 40m 4.64s 4.98s 60m 6.31s 6.88s 80m 7.92s 8.77s 100m 9.58s 10.73s Using the table: Plot a distance / time graph for the two athletes Analyse the motion plotted Compare the two sprinters

31

32

33 Fraser-Pryce (time in seconds)
Task 3 Distance (m) Bolt (time in seconds) Fraser-Pryce (time in seconds) 0m 0.00 20m 2.88s 3.03s 40m 4.64s 4.98s 60m 6.31s 6.88s 80m 7.92s 8.77s 100m 9.58s 10.73s Using the distance / time graph created: Compare average speed over 100m Compare speed at 60m Calculate velocity at each 20m interval for both athletes and draw a velocity / time graph

34 Bolt Fraser average speed over 100m 10.44 9.31 m/s speed at 60m

35 Average velocity Time Displacement

36 Fraser-Pryce (time in seconds)
Task 4 Distance (m) Bolt (time in seconds) Fraser-Pryce (time in seconds) 0m 0.00 20m 2.88s 3.03s 40m 4.64s 4.98s 60m 6.31s 6.88s 80m 7.92s 8.77s 100m 9.58s 10.73s Using the velocity / time graph created: Compare maximum velocity of Bolt and Fraser-Pryce Compare the average acceleration over the first 20m of the sprint

37 SUMMARY Component of linear motion Description Equation Distance The total path covered in m N/A Displacement The shortest route from the start to the finish Speed The rate of change of distance Distance/ time m/s Velocity The rate of change of displacement Distance / velocity m/s Acceleration The range of velocity Final velocity – initial velocity / time taken m/s/s Force A force is a push or pull upon an object resulting from the object's interaction with another object Force is mass x acceleration Deceleration

38 Jan 2011

39 Answer Jan 2011

40 Jan 2012

41

42 Jan 2013

43

Download ppt "Biomechanics Linear motion"

Similar presentations

Motion Chapter 2: Sections 1 and 2.

Motion Chapter 2: Sections 1 and 2.
Forces Recap Forces are the push and pull that one body applies to another body which affects it state of motion. Not all forces are big enough to have.

Forces Recap Forces are the push and pull that one body applies to another body which affects it state of motion. Not all forces are big enough to have.
Graphing Motion Position vs. Time Stationary objects

Graphing Motion Position vs. Time Stationary objects
LINEAR MOTION DISTANCE SPEED AND VELOCITY ACCELERATION.

LINEAR MOTION DISTANCE SPEED AND VELOCITY ACCELERATION.
IF WE MEASURE DISTANCE AND TIME, WE GET:

IF WE MEASURE DISTANCE AND TIME, WE GET:
Motion, Speed, and Velocity

Motion, Speed, and Velocity
M Joseph Dept. of Science Colyton High School

M Joseph Dept. of Science Colyton High School
What is motion? Motion is the change in the position of an object. To describe the motion of an object we use terms like: Distance, displacement, speed,

What is motion? Motion is the change in the position of an object. To describe the motion of an object we use terms like: Distance, displacement, speed,
Chapter 2 Motion in One Dimension 2-1 Displacement and Velocity  Motion – takes place over time Object’s change in position is relative to a reference.

Chapter 2 Motion in One Dimension 2-1 Displacement and Velocity  Motion – takes place over time Object’s change in position is relative to a reference.
MOTION - A CHANGE IN POSITION MEASURED BY DISTANCE AND TIME. SPEED - THE RATE AT WHICH AN OBJECT MOVES. VELOCITY - SPEED AND DIRECTION OF A MOVING OBJECT.

MOTION - A CHANGE IN POSITION MEASURED BY DISTANCE AND TIME. SPEED - THE RATE AT WHICH AN OBJECT MOVES. VELOCITY - SPEED AND DIRECTION OF A MOVING OBJECT.
MOTION AND SPEED Chapter 2. Section 1 – Describing Motion A. Motion – when an object changes its position relative to a reference point 1. Distance –

MOTION AND SPEED Chapter 2. Section 1 – Describing Motion A. Motion – when an object changes its position relative to a reference point 1. Distance –
STARTER During a road trip, in 6 hours you travel 300 miles. What is your average velocity? Average Velocity = distance travelled/time taken = 300 miles/6.

STARTER During a road trip, in 6 hours you travel 300 miles. What is your average velocity? Average Velocity = distance travelled/time taken = 300 miles/6.
Velocity.   Speed describes the rate of motion of an object. It is a scalar quantity (magnitude only)  Velocity describes the rate of motion AND the.

Velocity.   Speed describes the rate of motion of an object. It is a scalar quantity (magnitude only)  Velocity describes the rate of motion AND the.
Speed, Distance and Time. Speed and Velocity An object has speed when it travels a distance in a time interval. An object has speed when it travels a.

Speed, Distance and Time. Speed and Velocity An object has speed when it travels a distance in a time interval. An object has speed when it travels a.
Mechanical Concepts Learning Objectives: To be able to define the key terms regarding mechanical concepts. To be able to calculate velocity and acceleration.

Mechanical Concepts Learning Objectives: To be able to define the key terms regarding mechanical concepts. To be able to calculate velocity and acceleration.
OBJECTIVES 2-1 Distinguish between distance and displacement. Explain the difference between speed and velocity. Interpret motion graphs.

OBJECTIVES 2-1 Distinguish between distance and displacement. Explain the difference between speed and velocity. Interpret motion graphs.
Chapter 2 Section 1 Describing Motion. When I think of Motion I think of movement and SPEED! Fast Cars or Trucks OR Even Fast People.

Chapter 2 Section 1 Describing Motion. When I think of Motion I think of movement and SPEED! Fast Cars or Trucks OR Even Fast People.
Motion graphs Position (displacement) vs. time Distance vs. time

Motion graphs Position (displacement) vs. time Distance vs. time
Linear Motion. Displacement The change in position for a given time interval.

Linear Motion. Displacement The change in position for a given time interval.
Biomechanics • Mechanics of movement:

Biomechanics • Mechanics of movement:

Similar presentations

Ads by Google