Presentation is loading. Please wait.

Presentation is loading. Please wait.

1.1 Scalars & Vectors Scalar & Vector Quantities Scalar quantities have magnitude only. ex. Volume, mass, speed, temperature, distance Vector quantities.

Published byJoel Smith Modified over 8 years ago

Similar presentations

Presentation on theme: "1.1 Scalars & Vectors Scalar & Vector Quantities Scalar quantities have magnitude only. ex. Volume, mass, speed, temperature, distance Vector quantities."— Presentation transcript:

1 1.1 Scalars & Vectors Scalar & Vector Quantities Scalar quantities have magnitude only. ex. Volume, mass, speed, temperature, distance Vector quantities have magnitude and direction ex. Velocity, acceleration, force, displacement Adding Vectors Vectors are drawn as line segments where the length of the line segment represents the magnitude of the vector and the arrow head represents the direction of the vector. This would represent a displacement vector: p. 2 - 3 45 m (East)

2 1.1 Scalars & Vectors p. 3 - 5 To add two vectors special care must be paid to the direction of each vector: d 1 = 15 m (E) For example: d 2 = 9 m (E) d 1 + d 2 = 24 m (E) The net or resultant vector when two or more vectors are acting in the same direction would be the simple numerical addition of the vectors.

3 1.1 Scalars & Vectors p. 3 - 5 To add these two vectors special care must be paid to the direction of each vector: F 1 = 22 N (South) For example: F 2 = 22 N (North) F 1 + F 2 = 0 N The net force or resultant force in this addition would be zero force. When two or more force acting on a body have a resultant force of zero the body is said to be in equilibrium.

4 1.1 Scalars & Vectors p. 3 - 5 In this case two forces, F 1 and F 2, act on a single object in two different directions as shown F1F1 F2F2 F 1 + F 2 = F R The net force or resultant force, F R, in this addition is solved by using rules of adding vectors. F1F1 FRFR The equilibrant, F 3 is a force exactly opposite to the resultant force that is needed to keep an object stationary. F3F3

5 1.1 Scalars & Vectors p. 6 Another way of looking at adding three vectors: F1F1 F2F2 F 1 + F 2 + F 3 = F R = 0 N The three forces act to keep the object stationary so the sum of the force should be equal to zero F1F1 F3F3 F3F3 ΣF 1 = 0 N

6 1.1 Scalars & Vectors p. 7 Subtracting Vectors: Method 1: v1v1 v2v2 Δv = v 2 – v 1 It may become necessary to find the difference between two vectors such as finding the change in velocity for a body changing from one velocity, v 1 to second velocity, v 2. Remember that subtracting a vector is just like adding its opposite vector! Δv = v 2 + (-1)v 1 = v2v2 - v 1 v1v1 Δv = v 2 – v 1

7 1.1 Scalars & Vectors p. 7 Subtracting Vectors: Method 2: v1v1 v2v2 Δv = v 2 – v 1 The difference between two vectors can also be found by drawing vectors “tail to tail”. v 1 + Δv = v 2 Δv = v 2 – v 1 Both method 1 and method 2 will yield the same resultant vector.

8 1.1 Scalars and Vectors Key Questions In this section, you should understand how to solve the following key questions. Page 5 – Quick Check #1 – 3 Page 6 - 7 – Quick Check #1 - 4 Page 10 – Review 1.1: #1 - 4

Download ppt "1.1 Scalars & Vectors Scalar & Vector Quantities Scalar quantities have magnitude only. ex. Volume, mass, speed, temperature, distance Vector quantities."

Similar presentations

Year 10 Pathway C Mr. D. Patterson.  Distinguish between scalar and vector quantities  Add and subtract vectors in 2 dimensions using scaled diagrams.

Year 10 Pathway C Mr. D. Patterson.  Distinguish between scalar and vector quantities  Add and subtract vectors in 2 dimensions using scaled diagrams.
Ashley Abid Nicole Bogdan Vectors. Vectors and Scalars A vector quantity is a quantity that is fully described by both magnitude and direction. Scalars.

Ashley Abid Nicole Bogdan Vectors. Vectors and Scalars A vector quantity is a quantity that is fully described by both magnitude and direction. Scalars.
Mechanical Force Notes

Mechanical Force Notes
PHY 1151 Principles of Physics I

PHY 1151 Principles of Physics I
Vector Operation and Force Analysis

Vector Operation and Force Analysis
3-2 Vectors and Scalars  Is a number with units. It can be positive or negative. Example: distance, mass, speed, Temperature… Chapter 3 Vectors  Scalar.

3-2 Vectors and Scalars  Is a number with units. It can be positive or negative. Example: distance, mass, speed, Temperature… Chapter 3 Vectors  Scalar.
Scalars & Vectors Tug of War Treasure Hunt Scalars Completely described by its magnitude Direction does not apply at all e.g. Mass, Time, Distance,

Scalars & Vectors Tug of War Treasure Hunt Scalars Completely described by its magnitude Direction does not apply at all e.g. Mass, Time, Distance,
All quantities in Physics can be categorized as either a scalar or a vector quantity. A scalar quantity has magnitude (amount) only without direction.

All quantities in Physics can be categorized as either a scalar or a vector quantity. A scalar quantity has magnitude (amount) only without direction.
Vector Mathematics Physics 1.

Vector Mathematics Physics 1.
Introduction to Vectors

Introduction to Vectors
3.1 Introduction to Vectors.  Vectors indicate direction; scalars do not  Examples of scalars: time, speed, volume, temperature  Examples of vectors:

3.1 Introduction to Vectors.  Vectors indicate direction; scalars do not  Examples of scalars: time, speed, volume, temperature  Examples of vectors:
Statics: Equilibrant The condition of equilibrium How to solve Example Whiteboards (Demo: Force scales, masses)

Statics: Equilibrant The condition of equilibrium How to solve Example Whiteboards (Demo: Force scales, masses)
Two-Dimensional Motion and VectorsSection 1 Preview Section 1 Introduction to VectorsIntroduction to Vectors.

Two-Dimensional Motion and VectorsSection 1 Preview Section 1 Introduction to VectorsIntroduction to Vectors.
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.
Aim: How can we distinguish between a vector and scalar quantity? Do Now: What is the distance from A to B? Describe how a helicopter would know how to.

Aim: How can we distinguish between a vector and scalar quantity? Do Now: What is the distance from A to B? Describe how a helicopter would know how to.
VectorsVectors. What is a vector quantity? Vectors Vectors are quantities that possess magnitude and direction. »Force »Velocity »Acceleration.

VectorsVectors. What is a vector quantity? Vectors Vectors are quantities that possess magnitude and direction. »Force »Velocity »Acceleration.
Vector Basics. OBJECTIVES CONTENT OBJECTIVE: TSWBAT read and discuss in groups the meanings and differences between Vectors and Scalars LANGUAGE OBJECTIVE:

Vector Basics. OBJECTIVES CONTENT OBJECTIVE: TSWBAT read and discuss in groups the meanings and differences between Vectors and Scalars LANGUAGE OBJECTIVE:
2-D motion (no projectiles – yet) Physics Chapter 3 section 1 Pages 84-87.

2-D motion (no projectiles – yet) Physics Chapter 3 section 1 Pages
Introduction to Vectors (Geometric)

Introduction to Vectors (Geometric)
Physics Quantities Scalars and Vectors.

Physics Quantities Scalars and Vectors.

Similar presentations

Ads by Google