11.3 The Dot Product of Two Vectors. The dot product of u and v in the plane is The dot product of u and v in space is Two vectors u and v are orthogonal.

Slides:

Advertisements

Similar presentations

Section 9.3 The Dot Product

Advertisements

Do Now: p.528, #27 Find the measures of the angles of the triangle whose vertices are A = (–1, 0), B = (2, 1), and C = (1, –2). Component forms: Magnitudes:

10.2 day 1: Vectors in the Plane Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2003 Mesa Verde National Park, Colorado.

Section 6.1b Direction Angles Velocity, Speed. Let’s start with a brain exercise… Find the unit vector in the direction of the given vector. Write your.

10.4 MINIMAL PATH PROBLEMS 10.5 MAXIMUM AND MINIMUM PROBLEMS IN MOTION AND ELSEWHERE.

Vector Products (Dot Product). Vector Algebra The Three Products.

Digital Lesson Vectors.

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°

10.2: Vectors In A Plane Gabe Ren, Tommy Cwalina, Emily He, Eric Mi, Siddarth Narayan.

24. Dot Product of Vectors. What you’ll learn about  How to find the Dot Product  How to find the Angle Between Vectors  Projecting One Vector onto.

VECTORS AND THE GEOMETRY OF SPACE 12. VECTORS AND THE GEOMETRY OF SPACE So far, we have added two vectors and multiplied a vector by a scalar.

6.4 Vectors and Dot Products

6.4 Vectors and Dot Products The Definition of the Dot Product of Two Vectors The dot product of u = and v = is Ex.’s Find each dot product.

Section 13.3 The Dot Product. We have added and subtracted vectors, what about multiplying vectors? There are two ways we can multiply vectors 1.One results.

Vectors and the Geometry of Space

Copyright © Cengage Learning. All rights reserved. 12 Vectors and the Geometry of Space.

1.1 – 1.2 The Geometry and Algebra of Vectors.  Quantities that have magnitude but not direction are called scalars. Ex: Area, volume, temperature, time,

Vectors Precalculus. Vectors A vector is an object that has a magnitude and a direction. Given two points P: & Q: on the plane, a vector v that connects.

Vectors 7.4 JMerrill, 2007 Revised Definitions Vectors are quantities that are described by direction and magnitude (size). Example: A force is.

10.2 Vectors and Vector Value Functions. Quantities that we measure that have magnitude but not direction are called scalars. Quantities such as force,

6.1 – Vectors in the Plane. What are Vectors? Vectors are a quantity that have both magnitude (length) and direction, usually represented with an arrow:

Section 10.2a VECTORS IN THE PLANE. Vectors in the Plane Some quantities only have magnitude, and are called scalars … Examples? Some quantities have.

1 © 2011 Pearson Education, Inc. All rights reserved 1 © 2010 Pearson Education, Inc. All rights reserved © 2011 Pearson Education, Inc. All rights reserved.

10.2 Vectors in the Plane Warning: Only some of this is review.

Vectors in Space!!! Cool stuff in Section 8.6b. Just as in planes, sets of equivalent directed line segments in space are called vectors. Denoted with.

Graphing in 3-D Graphing in 3-D means that we need 3 coordinates to define a point (x,y,z) These are the coordinate planes, and they divide space into.

Jeopardy! for the Classroom

Advanced Precalculus Chapter 8 Review Sheet

Sec 13.3The Dot Product Definition: The dot product is sometimes called the scalar product or the inner product of two vectors.

6.4 Vectors and Dot Products. Dot Product is a third vector operation. This vector operation yields a scalar (a single number) not another vector. The.

10.2 day 1: Vectors in the Plane Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2003 Mesa Verde National Park, Colorado.

Vector-Valued Functions 12 Copyright © Cengage Learning. All rights reserved.

In chapter 1, we talked about parametric equations. Parametric equations can be used to describe motion that is not a function. If f and g have derivatives.

Vectors: Word Problems

12.2 Vectors.  Quantities that have magnitude but not direction are called scalars. Ex: Area, volume, temperature, time, etc.  Quantities such as force,

Copyright © Cengage Learning. All rights reserved. 12 Vectors and the Geometry of Space.

Vectors and Dot Product 6.4 JMerrill, Quick Review of Vectors: Definitions Vectors are quantities that are described by direction and magnitude.

2-4 Vectors in a Plane Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2003.

Section 9.3: The Dot Product Practice HW from Stewart Textbook (not to hand in) p. 655 # 3-8, 11, 13-15, 17,

8.5 The Dot Product Precalculus. Definition of the Dot Product If u= and v= are vectors, then their dot product (u v) is defined by: u v = a 1 a 2 + b.

Warm UpMay 12 th 1)Find the magnitude and direction of a vector with initial point (-5, 7) and terminal point (-1, -3). 2)Find, in simplest form, the unit.

Chapter 4 Vector Spaces Linear Algebra. Ch04_2 Definition 1: ……………………………………………………………………. The elements in R n called …………. 4.1 The vector Space R n Addition.

6.4 Vector and Dot Products. Dot Product  This vector product results in a scalar  Example 1: Find the dot product.

12.3 The Dot Product. The dot product of u and v in the plane is The dot product of u and v in space is Two vectors u and v are orthogonal  if they meet.

The definition of the product of two vectors is: This is called the dot product. Notice the answer is just a number NOT a vector.

6.4 Vectors and Dot Products Objectives: Students will find the dot product of two vectors and use properties of the dot product. Students will find angles.

Dot Product So far, we haven’t talked about how to multiply two vectors…because there are two ways to “multiply” them. Def. Let and, then the dot product.

11.6 Dot Product and Angle between Vectors Do Now Find the unit vector of 3i + 4j.

11. Section 12.1 Vectors Vectors What is a vector and how do you combine them?

Vectors and Dot Products OBJECTIVES: Find the dot product of two vectors and use the properties of the dot product. Find the angle between two vectors.

Warm Up 1)Find the magnitude and direction of a vector with initial point (-5, 7) and terminal point (-1, -3). 2)Find, in simplest form, the unit vector.

Vectors Def. A vector is a quantity that has both magnitude and direction. v is displacement vector from A to B A is the initial point, B is the terminal.

Lesson 12 – 7 Geometric Vectors

Dot Product of Vectors.

Dot Product of Vectors.

10.2 Vectors in a Plane Mesa Verde National Park, Colorado

10.2 day 1: Vectors in the Plane

6.1 – Vectors in the Plane.

10.2 Vectors in a Plane Mesa Verde National Park, Colorado

C H A P T E R 3 Vectors in 2-Space and 3-Space

12.3 The Dot Product.

Only some of this is review.

10.6: Applications of Vectors in the Plane

Precalculus PreAP/Dual, Revised ©2017

THE DOT PRODUCT.

Vectors in a Plane Mesa Verde National Park, Colorado

Vectors and Dot Products

CHAPTER 3 VECTORS NHAA/IMK/UNIMAP.

11.2 Vectors in the Plane.

Presentation transcript:

11.3 The Dot Product of Two Vectors

The dot product of u and v in the plane is The dot product of u and v in space is Two vectors u and v are orthogonal  if they meet at a right angle.  if and only if u ∙ v = 0 (since slopes are opposite reciprocal) (Read “u dot v”) Definitions

Examples

Another form of the Dot Product: Properties

Find the angle between vectors u and v : Examples

Angles between a vector v and 3 unit vectors i, j and k are called direction angles of v, denoted by α, β, and γ respectively. Since we obtain the following 3 direction cosines of v: So any vector v has the normalized form: Direction Cosines

Let u and v be nonzero vectors.  w 1 is called the vector component of u along v (or projection of u onto v), and is denoted by proj v u  w 2 is called the vector component of u orthogonal to v w2w2 w1w1 u v Vector Components

A Boeing 727 airplane, flying due east at 500mph in still air, encounters a 70-mph tail wind acting in the direction of 60 o north of east. The airplane holds its compass heading due east but, because of the wind, acquires a new ground speed and direction. What are they? N E Application

N E u

N E v u 60 o

A Boeing 727 airplane, flying due east at 500mph in still air, encounters a 70-mph tail wind acting in the direction of 60 o north of east. The airplane holds its compass heading due east but, because of the wind, acquires a new ground speed and direction. What are they? N E v u We need to find the magnitude and direction of the resultant vector u + v. u+v

N E v u The component forms of u and v are: u+v Therefore: and:

N E The new ground speed of the airplane is about mph, and its new direction is about 6.5 o north of east o

1) Compute 2) Compute 4) Find the angle between vectors v and w. 3) List pairs of orthogonal and/or parallel vectors. 6) Find the projection of w onto u. 5) Find the unit vector in the direction u. 7) Find vector component of w orthogonal to u. Examples