Line 1: | Line 1: | ||
+ | == Linear System == | ||
<pre> | <pre> | ||
% The amount of charge going through the Resistor1 is directly proportional | % The amount of charge going through the Resistor1 is directly proportional | ||
Line 19: | Line 20: | ||
[[ image:circuit.jpg _ECE301Fall2008mboutin]] | [[ image:circuit.jpg _ECE301Fall2008mboutin]] | ||
[[ image:PartC-1.jpg _ECE301Fall2008mboutin]] | [[ image:PartC-1.jpg _ECE301Fall2008mboutin]] | ||
+ | |||
+ | == Non-Linear System == | ||
+ | <pre> | ||
+ | % Position of a falling object from a 200 m high cliff. | ||
+ | t = [0:0.01:6.8]; | ||
+ | y = 200 - 1/2*9.8.*t.^2; | ||
+ | plot(t,y); | ||
+ | xlabel('Time(sec)') | ||
+ | ylabel('Position from the Cliff(m)')</pre> | ||
+ | |||
+ | [[ image:cliff.jpg _ECE301Fall2008mboutin]] |
Revision as of 18:23, 9 September 2008
Linear System
% The amount of charge going through the Resistor1 is directly proportional % to time t = [0:0.01:15]; R1 = 1000; % Ohms V = 50; % Volts I = V/R1; Q = I * t; plot(t,Q) title('Original') figure %When the switch is closed at t=2 Q = I * (t-2); %Or Equavalently, t = [2:0.01:17]; Q = I * t; plot(t,Q) title('Time Shifted by 2 sec')
File:Circuit.jpg ECE301Fall2008mboutin File:PartC-1.jpg ECE301Fall2008mboutin
Non-Linear System
% Position of a falling object from a 200 m high cliff. t = [0:0.01:6.8]; y = 200 - 1/2*9.8.*t.^2; plot(t,y); xlabel('Time(sec)') ylabel('Position from the Cliff(m)')