Presentation is loading. Please wait.

Presentation is loading. Please wait.

Vectors Quantities with direction. Vectors and Scalars Vector: quantity needing a direction to fully specify (direction + magnitude) Scalar: directionless.

Published byBranden Jefferson Modified over 8 years ago

Similar presentations

Presentation on theme: "Vectors Quantities with direction. Vectors and Scalars Vector: quantity needing a direction to fully specify (direction + magnitude) Scalar: directionless."— Presentation transcript:

1 Vectors Quantities with direction

2 Vectors and Scalars Vector: quantity needing a direction to fully specify (direction + magnitude) Scalar: directionless quantity

3 Represent as Arrows direction: obvious magnitude: length location is irrelevant these are identical

4 Represent as Components Components: magnitudes in x and y (maybe z) directions (x = right, y = up) B A A = (4, 3) B = (0, –2) x y

5 Represent as Polar Coordinates x  r

6 Unit Vectors Essentially direction-only vectors Directions along axes Magnitude is unitless 1 Basis vectors in 3-space unit vector k : in positive z-direction unit vector i : in positive x-direction unit vector j : in positive y-direction

7 Represent as Basis Combinations C B A A = 4i + 3j B = –2j C = A + B = 4i + (3–2)j = 4i + j

8 Cartesian to Polar Magnitude r of a vector: use theorem of Pythagoras r 2 = x 2 + y 2 + z 2 r 2 = 4 2 + 3 2 r = 4 2 + 3 2 25 = 5 16 + 9 = = r

9 Cartesian to Polar Direction  of a vector: use tan (  ) = y/x A tan  = 3/4 A = (4, 3)  = arctan(3/4)  = 36.87° 

10 Polar to Cartesian Components x and y of a vector: use sine and cosine r y = r sin  x = r cos 

11 Vector Operations addition and subtraction

12 Add Vectors Graphically A C B A + B = C Head-to-tail A B

13 How to Add Vectors Graphicaly Head-to-Tail Place following vector’s tail at preceding vector’s head Resultant starts where the first vector starts and ends where the last vector ends

14 Add as Components Add components for each direction separately C B A A = (4, 3) B = (0, –2) C = A + B = (4+0, 3–2) = (4, 1)

15 Subtract Vectors A B Add the negative of the vector being subtracted. –B–B A – B = A + (–B) = D D –B–B A D + B = A

16 Scalar Multiplication Product of (scalar)(vector) is a vector The scalar multiplies the magnitude of the vector; direction does not change Direction reverses if scalar is negative A 2 A 1/2 A –2 A

17 Dot Product of Vectors a·b = ab cos  a b a b  Commutative

18 Dot Product Geometrically Product of the projection of one vector onto the other “Overlap” b cos  a cos  a b  ab cos 

19 Dot Product by Components A·B = (A x B x + A y B y + A z B z )

20 Cross Product of Vectors Operation symbol  Another way to multiply two vectors Product is a vector! Direction of A  B is perpendicular to both A and B

21 Cross Product by Components Determinant method A  B = AxAx AyAy AzAz BxBx ByBy BzBz ijk

22 Cross Product Magnitude  A  B  = AB sin  A B A B  Maximum for  = 90° Zero for  = 0°, 180°

23 Magnitude Geometrically A B A B   A  B  = area of parallelogram

24 Cross Product Direction Curl right-hand fingers in direction of  Right-hand thumb points in direction of cross- product Not commutative A B A B  AB = –(BA)AB = –(BA)

Download ppt "Vectors Quantities with direction. Vectors and Scalars Vector: quantity needing a direction to fully specify (direction + magnitude) Scalar: directionless."

Similar presentations

Polaris Coordinates of a Vector How can we represent a vector? -We plot an arrow: the length proportional to magnitude of vector the line represents the.

Polaris Coordinates of a Vector How can we represent a vector? -We plot an arrow: the length proportional to magnitude of vector the line represents the.
UBI 516 Advanced Computer Graphics

UBI 516 Advanced Computer Graphics
Physics 1D03 - Lecture 31 Vectors Scalars and Vectors Vector Components and Arithmetic Vectors in 3 Dimensions Unit vectors i, j, k Serway and Jewett Chapter.

Physics 1D03 - Lecture 31 Vectors Scalars and Vectors Vector Components and Arithmetic Vectors in 3 Dimensions Unit vectors i, j, k Serway and Jewett Chapter.
NEWTON’S LAWSVECTORS PHY1012F VECTORS Gregor Leigh

NEWTON’S LAWSVECTORS PHY1012F VECTORS Gregor Leigh
Chapter 4.1 Mathematical Concepts

Chapter 4.1 Mathematical Concepts
Chapter 4.1 Mathematical Concepts. 2 Applied Trigonometry Trigonometric functions Defined using right triangle  x y h.

Chapter 4.1 Mathematical Concepts. 2 Applied Trigonometry Trigonometric functions Defined using right triangle  x y h.
CSCE 590E Spring 2007 Basic Math By Jijun Tang. Applied Trigonometry Trigonometric functions  Defined using right triangle  x y h.

CSCE 590E Spring 2007 Basic Math By Jijun Tang. Applied Trigonometry Trigonometric functions  Defined using right triangle  x y h.
Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.

Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.
Physics 106: Mechanics Lecture 05 Wenda Cao NJIT Physics Department.

Physics 106: Mechanics Lecture 05 Wenda Cao NJIT Physics Department.
Vectors: 5 Minute Review Vectors can be added or subtracted. ◦ To add vectors graphically, draw one after the other, tip to tail. ◦ To add vectors algebraically,

Vectors: 5 Minute Review Vectors can be added or subtracted. ◦ To add vectors graphically, draw one after the other, tip to tail. ◦ To add vectors algebraically,
Vectors and scalars A scalar quantity can be described by a single number, with some meaningful unit 4 oranges 20 miles 5 miles/hour 10 Joules of energy.

Vectors and scalars A scalar quantity can be described by a single number, with some meaningful unit 4 oranges 20 miles 5 miles/hour 10 Joules of energy.
PHYS 218 sec. 517-520 Review Chap. 1. Caution This presentation is to help you understand the contents of the textbook. Do not rely on this review for.

PHYS 218 sec Review Chap. 1. Caution This presentation is to help you understand the contents of the textbook. Do not rely on this review for.
Vectors and Scalars Vector and scalar quantities Adding vectors geometrically Components Unit Vectors Dot Products Cross Products pps by C Gliniewicz.

Vectors and Scalars Vector and scalar quantities Adding vectors geometrically Components Unit Vectors Dot Products Cross Products pps by C Gliniewicz.
Chapter 3: VECTORS 3-2 Vectors and Scalars 3-2 Vectors and Scalars

Chapter 3: VECTORS 3-2 Vectors and Scalars 3-2 Vectors and Scalars
Vectors: 5 Minute Review Vectors can be added or subtracted. ◦ To add vectors graphically, draw one after the other, tip to tail. ◦ To add vectors algebraically,

Vectors: 5 Minute Review Vectors can be added or subtracted. ◦ To add vectors graphically, draw one after the other, tip to tail. ◦ To add vectors algebraically,
Scalar and Vector Fields

Scalar and Vector Fields
Chapter 3. Vector 1. Adding Vectors Geometrically

Chapter 3. Vector 1. Adding Vectors Geometrically
Definitions Examples of a Vector and a Scalar More Definitions

Definitions Examples of a Vector and a Scalar More Definitions
Starter If the height is 10m and the angle is 30 degrees,

Starter If the height is 10m and the angle is 30 degrees,
1 Physics 111/121 Mini-Review Notes on Vectors. 2 Right hand rule: - curl fingers from x to y - thumb points along +z.

1 Physics 111/121 Mini-Review Notes on Vectors. 2 Right hand rule: - curl fingers from x to y - thumb points along +z.

Similar presentations

Ads by Google