Revision as of 09:20, 8 October 2010

Homework 6, ECE438, Fall 2010, Prof. Boutin

Due in class, Friday October 15, 2010.

The discussion page for this homework is here. Feel free to share your answers/thoughts/questions on that page.

Consider the signal

$x[n]=\cos \left( \omega_1 n \right)+ k \cos \left( \omega_2 n \right)$

where k is a real-valued constant.

a) Write a program that will

Turn in a print out of your code.

b) Run your program and generate outputs for the cases shown below.

Case	N	$\omega_1$	k	$\omega_2$
1	20	0.62831853
2	200	0.62831853	0	N/A
3	20	0.64402649	0	N/A
4	200	0.64402649	0	N/A
5	200	0.64402649	0.2	1.27234502
6	200	0.64402649	0.2	0.79168135

@@ Line 11: / Line 11: @@
 Consider the signal
-<span class="texhtml">''x''[''n''] = sin(ω<sub>1</sub>''n'') + ''k''sin(ω<sub>2</sub>''n''),</span>
+<math>x[n]=\cos \left( \omega_1 n \right)+ k \cos \left( \omega_2 n \right) </math>
-where k is a real valued constant.
+where k is a real-valued constant.
 a) Write a program that will
@@ Line 25: / Line 25: @@
 b) Run your program and generate outputs for the cases shown below.
-{| width="200" border="1" cellpadding="1" cellspacing="1"
+{| width="200" border="1" cellpadding="5" cellspacing="1"
 |-
 ! scope="col" | Case
@@ Line 35: / Line 35: @@
 | 1
 | 20
-|
+| 0.62831853
 |
 |
@@ Line 41: / Line 41: @@
 | 2
 | 200
-|
+| 0.62831853
-|
+| 0
-|
+| N/A
 |-
 | 3
 | 20
-|
+| 0.64402649
-|
+| 0
-|
+| N/A
 |-
 | 4
 | 200
-|
+| 0.64402649
-|
+| 0
-|
+| N/A
 |-
 | 5
 | 200
-|
+| 0.64402649
-|
+| 0.2
-|
+| 1.27234502
 |-
 | 6
 | 200
-|
+| 0.64402649
-|
+| 0.2
-|
+| 0.79168135
 |}