MAT 335

HOMEWORK ASSIGNMENT #11

HAND IN MONDAY, Nov. 19, 2007

 

 

1.           Section 4.5  #6

 

2.           Section 4.5  #8

 

3.           Section 4.5  #12

 

4.           Section 4.5  #14

 

5.           Section 4.6  #2

 

6.           Section 4.6  #12

 

7.           Section 4.6  #20

 

8.           Section 4.6  #22

 

9.           Section 4.9  #8   Find the steady-state vector by the analytical method (not experimentally)—by finding a probability vector in Nul (M – I).  Using MATLAB as an aid is fine.

 

10.       Section 4.9  #16   Find the steady-state probability vector for M by the analytical method.  Then interpret its meaning by determining the number of cars at the Downtown location after a long time.