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ME451 Kinematics and Dynamics of Machine Systems Review of Matrix Algebra – 2.2 September 13, 2011 Dan Negrut University of Wisconsin-Madison © Dan Negrut,

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1 ME451 Kinematics and Dynamics of Machine Systems Review of Matrix Algebra – 2.2 September 13, 2011 Dan Negrut University of Wisconsin-Madison © Dan Negrut, 2011 ME451, UW-Madison TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAAAAAAA

2 Before we get started… Due next week: Problems: 2.2.5, 2.2.8. 2.2.10 out of Haug’s book ( http://sbel.wisc.edu/Courses/ME451/2010/bookHaugPointers.htm ) http://sbel.wisc.edu/Courses/ME451/2010/bookHaugPointers.htm Due on Th: In class, if pen and paper version is submitted At 23:59 PM if electronic form submitted  Moving to full electronic submission starting after September  See Forum posting for some ideas on how to go about typing equations in your document in Windows Last time: Covered Geometric Vectors & operations with them Justified the need for Reference Frames (using a vector basis) Introduced algebraic representation of a vector & related operations Rotation Matrix (for switching from one RF to another RF) Today: Dealing with the kinematics of a body: rotation + translation Quick review of matrix/vector algebra Discuss concept of “generalized coordinates” 2

3 The Rotation Matrix A Very important observation ! the matrix A is orthonormal: 3

4 Important Relation Expressing a given vector in one reference frame (local) in a different reference frame (global) 4 Also called a change of base.

5 Example 1 [Deals with the rotation of a body wrt a Global Reference Frame (GRF)] 5 Express the geometric vector in the local reference frame O’x’y’. Express the same geometric vector in the global reference frame OXY Do the same for the geometric vector

6 6 Express the geometric vector in the local reference frame O’x’y’. Express the same geometric vector in the global reference frame OXY Do the same for the geometric vector Example 2 [Deals with the rotation of a body wrt a Global Reference Frame (GRF)]

7 The Kinematics of a Rigid Body: Handling both Translation + Rotation What we just discussed dealt with the case when you are interested in finding the representing the location of a point P when you change the reference frame, but yet the new and old reference frames share the same origin 7 What if they don’t share the same origin (see picture at right)? How would you represent the position of the point P in this new reference frame?

8 More on Body Kinematics A lot of ME451 is based on the ability to look at the location of one point P in two different reference frames: a local reference frame (LRF) and a global reference frame (GRF) Local reference frame is typically fixed (rigidly attached) to a body that is moving in space Global reference frame is the “world” reference frame: it’s not moving, and serve as the universal reference frame 8

9 ME451 Important Slide 9

10 Example The location of point O’ in the OXY global RF is [x,y] T. The orientation of the bar is described by the angle  1. Find the location of C and D expressed in the global reference frame as functions of x, y, and  1. 10

11 11 Matrix Review

12 Recall Notation Conventions A bold upper case letter denotes matrices Example: A, B, etc. A bold lower case letter denotes a vector Example: v, s, etc. A letter in italics format denotes a scalar quantity Example: 12

13 Matrix Review What is a matrix? A tableau of numbers ordered by row and column. Matrix addition: Addition is commutative 13

14 Matrix Multiplication Recall dimension constraints on matrices so that they can be multiplied: # of columns of first matrix is equal to # of rows of second matrix Matrix multiplication is not commutative Distributivity of matrix multiplication with respect to matrix addition: 14

15 Matrix-Vector Multiplication A column-wise perspective on matrix-vector multiplication (part of your HW) Example: A row-wise perspective on matrix-vector multiplication: 15

16 Orthogonal & Orthonormal Matrices Definition (Q, orthogonal matrix): a square matrix Q is orthogonal if the product Q T Q is a diagonal matrix Matrix Q is called orthonormal if it’s orthogonal and also Q T Q=I n Note that in many cases people fail to make a distinction between an orthogonal and orthonormal matrix. We’ll observe this distinction Note that if Q is an orthonormal matrix, then Q -1 =Q T Example, orthonormal matrix: 16

17 Exercise Prove that the orientation A matrix is orthonormal 17

18 Remark: On the Columns of an Orthonormal Matrix Assume Q is an orthonormal matrix 18 In other words, the columns of an orthonormal matrix have unit norm and are mutually perpendicular to each other

19 Matrix Review [Cntd.] Scaling of a matrix by a real number: scale each entry of the matrix Example: Transpose of a matrix A dimension m£n: a matrix B=A T of dimension n£m whose (i,j) entry is the (j,i) entry of original matrix A 19

20 Linear Independence of Vectors Definition: linear independence of a set of m vectors, v 1,…, v m : The vectors are linearly independent if the following condition holds If a set of vectors are not linearly independent, they are called dependent Example: Note that v 1 -2v 2 -v 3 =0 20

21 Matrix Rank Row rank of a matrix Largest number of rows of the matrix that are linearly independent A matrix is said to have full row rank if the rank of the matrix is equal to the number of rows of that matrix Column rank of a matrix Largest number of columns of the matrix that are linearly independent NOTE: for each matrix, the row rank and column rank are the same This number is simply called the rank of the matrix It follows that 21

22 Matrix Rank, Example What is the row rank of the matrix J? What is the rank of J? 22

23 Matrix Review [Cntd.] Symmetric matrix: a square matrix A for which A=A T Skew-symmetric matrix: a square matrix B for which B=-B T Examples: Singular matrix: square matrix whose determinant is zero Inverse of a square matrix A: a matrix of the same dimension, called A -1, that satisfies the following: 23

24 Singular vs. Nonsingular Matrices Let A be a square matrix of dimension n. The following are equivalent: 24

25 Other Useful Formulas [Pretty straightforward to prove true] If A and B are invertible, their product is invertible and Also, For any two matrices A and B that can be multiplied For any three matrices A, B, and C that can be multiplied 25

26 26 Absolute (Cartesian) Generalized Coordinates vs. Relative Generalized Coordinates

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