Presentation is loading. Please wait.

Presentation is loading. Please wait.

Relative Velocity SPH4U. Inertial Reference Frames The equations of motion will be valid in any reference frame that is at rest (A) or moving uniformly.

Published byJesse Spencer Modified over 9 years ago

Similar presentations

Presentation on theme: "Relative Velocity SPH4U. Inertial Reference Frames The equations of motion will be valid in any reference frame that is at rest (A) or moving uniformly."— Presentation transcript:

1 Relative Velocity SPH4U

2 Inertial Reference Frames The equations of motion will be valid in any reference frame that is at rest (A) or moving uniformly at a constant velocity (C):

3 Inertial Reference Frames These reference frames are said to be inertial. inertial non-inertial

4 Relative Motion All motion in inertial reference frames is therefore relative:

5 Relative Motion All motion in inertial reference frames is therefore relative:

6 Adding Vectors To transfer between reference frames, we add the velocity vectors:

7 Example 1 A passenger is walking at 2.0 m/s [E] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer?

8 Example 1 A passenger is walking at 2.0 m/s [E] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer?

9 Example 1 A passenger is walking at 2.0 m/s [E] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer?

10 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer?

11 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer? 9.0 m/s 2.0 m/s

12 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer? 9.0 m/s 2.0 m/s

13 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer? 9.0 m/s 2.0 m/s

14 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer? 9.0 m/s 2.0 m/s

15 Example 2 A passenger is walking at 2.0 m/s [N] on a train travelling at 9.0 m/s [E]. What is his velocity relative to a ground-based observer? 9.0 m/s 2.0 m/s

16 Example 3 A canoeist paddling at 4.5 m/s is crossing a river flowing at 3.2 m/s [E]. At what angle should she aim the canoe to land due North of her starting position?

17 Example 3 A canoeist paddling at 4.5 m/s is crossing a river flowing at 3.2 m/s [E]. At what angle should she aim the canoe to land due North of her starting position? velocity of the water relative to the shore velocity of the canoe relative to the water velocity of the canoe relative to the shore

18 Example 3

19

20 She should paddle 45 o W of N.

21 Components When given vectors at angles, break them down into their horizontal and vertical components and add the components.

22 Components When given vectors at angles, break them down into their horizontal and vertical components and add the components.

23 Alternately.......or use the Sine Law and Cosine Law (for an example, refer to p. 55, Sample Problem 2)

24 More Practice Textbook Questions: p. 56 #2 p. 57 #3, 4 A real-world application of relative motion problem-solving (from thinkgeek.com):

25 Addendum Please note that a rotating reference frame is never inertial. Even if it is rotating at constant speed, the direction of the velocity vectors is always changing.

26 More Later We will be studying rotating reference frames in more detail later.

Download ppt "Relative Velocity SPH4U. Inertial Reference Frames The equations of motion will be valid in any reference frame that is at rest (A) or moving uniformly."

Similar presentations

Introduction to Projectile Motion

Introduction to Projectile Motion
Chapter 3 Vectors and Two-Dimensional Motion Vectors and Scalars

Chapter 3 Vectors and Two-Dimensional Motion Vectors and Scalars
Uniform Circular Motion & Relative Velocity. Seatwork #2 A man trapped in a valley desperately fires a signal flare into the air. The man is standing.

Uniform Circular Motion & Relative Velocity. Seatwork #2 A man trapped in a valley desperately fires a signal flare into the air. The man is standing.
Motion in Two and Three Dimensions

Motion in Two and Three Dimensions
Relative and Circular Motion Mechanics Lecture 3, Slide 1 a ) Relative motion b) Centripetal acceleration.

Relative and Circular Motion Mechanics Lecture 3, Slide 1 a ) Relative motion b) Centripetal acceleration.
 Kinematics – Relative Motion Unit #2 Kinematics.

 Kinematics – Relative Motion Unit #2 Kinematics.
Constant Acceleration and Relative Velocity Constant Acceleration and Relative Velocity.

Constant Acceleration and Relative Velocity Constant Acceleration and Relative Velocity.
Relative Motion. Point of View  A plane flies at a speed of 200. km/h relative to still air. There is an 80. km/h wind from the southwest (heading 45°

Relative Motion. Point of View  A plane flies at a speed of 200. km/h relative to still air. There is an 80. km/h wind from the southwest (heading 45°
Chapter 4 Two-Dimensional Kinematics

Chapter 4 Two-Dimensional Kinematics
Relative Velocity Ch 3. WOD are underlined.. Relative Velocity: Equations written to relate motion to a frame of reference. Motion that depends on velocity.

Relative Velocity Ch 3. WOD are underlined.. Relative Velocity: Equations written to relate motion to a frame of reference. Motion that depends on velocity.
All motion is relative; that is, motion must be measured relative to a frame of reference. For example, if you’re sitting in a rowboat that is floating.

All motion is relative; that is, motion must be measured relative to a frame of reference. For example, if you’re sitting in a rowboat that is floating.
RELATIVE VELOCITY IN 2D. WARM UP A boat travels at a constant speed of 3 m/s on a river. The river’s current has a velocity of 2 m/s east. 1.If the boat.

RELATIVE VELOCITY IN 2D. WARM UP A boat travels at a constant speed of 3 m/s on a river. The river’s current has a velocity of 2 m/s east. 1.If the boat.
1 Relativity  H1: Introduction to relativity. 2 Motion is relative  Whenever we talk about motion, we must always specify the vantage point from which.

1 Relativity  H1: Introduction to relativity. 2 Motion is relative  Whenever we talk about motion, we must always specify the vantage point from which.
SPH4U – Grade 12 Physics Unit 3

SPH4U – Grade 12 Physics Unit 3
GRAPHS  INTERPRET  MEASURE SLOPE  -INSATATANEOUS AND AVERAGE  MEASURE AREA.

GRAPHS  INTERPRET  MEASURE SLOPE  -INSATATANEOUS AND AVERAGE  MEASURE AREA.
Vectors and Scalars AP Physics B. Scalar A SCALAR is ANY quantity in physics that has MAGNITUDE, but NOT a direction associated with it. Magnitude – A.

Vectors and Scalars AP Physics B. Scalar A SCALAR is ANY quantity in physics that has MAGNITUDE, but NOT a direction associated with it. Magnitude – A.
Chapter 3 Kinematics in Two Dimensions

Chapter 3 Kinematics in Two Dimensions
Scalars and Vectors (a)define scalar and vector quantities and give examples. (b) draw and use a vector triangle to determine the resultant of two vectors.

Scalars and Vectors (a)define scalar and vector quantities and give examples. (b) draw and use a vector triangle to determine the resultant of two vectors.
Lecture 4: More kinematics. Displacement and change in displacement Position vector points from the origin to a location. The displacement vector points.

Lecture 4: More kinematics. Displacement and change in displacement Position vector points from the origin to a location. The displacement vector points.
Two-Dimensional Motion and VectorsSection 1 Preview Section 1 Introduction to VectorsIntroduction to Vectors Section 2 Vector OperationsVector Operations.

Two-Dimensional Motion and VectorsSection 1 Preview Section 1 Introduction to VectorsIntroduction to Vectors Section 2 Vector OperationsVector Operations.

Similar presentations

Ads by Google