2 files changed, 41 insertions, 0 deletions

diff --git a/1430/CH5/EX5.1/exa5_1.jpg b/1430/CH5/EX5.1/exa5_1.jpg
new file mode 100644
index 000000000..f6a667b17
--- /dev/null
+++ b/1430/CH5/EX5.1/exa5_1.jpg
diff --git a/1430/CH5/EX5.1/exa5_1.sce b/1430/CH5/EX5.1/exa5_1.sce
new file mode 100644
index 000000000..0c28f64d0
--- /dev/null
+++ b/1430/CH5/EX5.1/exa5_1.sce
@@ -0,0 +1,41 @@
+// Example 5.1

+// Capacitor Waveforms

+t_1= 0:0.001:0.01;

+t_2= 0.01:0.001:0.03;

+t_3= 0.03:0.001:0.06;

+v_1= 20*sin(50*%pi*t_1);

+v_2=20;

+v_3=-20*sin(50*%pi*t_3);

+// Current Equations Can be obtained by using the relation i = C(dv/dt)

+i_1=3*%pi*cos(50*%pi*t_1)*10^-3;

+i_2=0;

+i_3=-3*%pi*cos(50*%pi*t_3)*10^-3;

+// Power Equations can be obtained by using the relation p=v*i

+p_1=v_1.*i_1;

+p_2=20*0;

+p_3=v_3.*i_3;

+// Energy stored can be obtained by using the relation w=0.5*C*v^2

+C=60*10^-6;

+w_1=0.5*C*[20*sin(50*%pi*t_1)]^2;

+w_2=0.5*C*400;

+w_3=0.5*C*[20*sin(50*%pi*t_3)]^2;

+subplot(2,2,1)

+plot(t_1,v_1,'-r',t_2,v_2,'-r',t_3,v_3,'-r')

+xlabel('t(ms)');

+ylabel('V');

+title("Voltage");

+subplot(2,2,2)

+plot(t_1,i_1,'-g',t_2,i_2,'-g',t_3,i_3,'-g')

+xlabel('t(ms)');

+ylabel('i(mA)');

+title("Current");

+subplot(2,2,3)

+plot(t_1,p_1,'-y',t_2,p_2,'-y',t_3,p_3,'-y')

+xlabel('t(ms)');

+ylabel('P(mW)');

+title("Power");

+subplot(2,2,4)

+plot(t_1,w_1,'-m',t_2,w_2,'-m',t_3,w_3,'-m')

+xlabel('t(ms)');

+ylabel('w(mJ)');

+title("Stored Energy");