From 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 Mon Sep 17 00:00:00 2001
From: prashantsinalkar
Date: Tue, 10 Oct 2017 12:27:19 +0530
Subject: initial commit / add all books

---
 1445/CH11/EX11.1/ch11_ex_1.sce | 26 ++++++++++++++++++++++++++
 1445/CH11/EX11.2/ch11_ex_2.sce | 33 +++++++++++++++++++++++++++++++++
 2 files changed, 59 insertions(+)
 create mode 100644 1445/CH11/EX11.1/ch11_ex_1.sce
 create mode 100644 1445/CH11/EX11.2/ch11_ex_2.sce

(limited to '1445/CH11')

diff --git a/1445/CH11/EX11.1/ch11_ex_1.sce b/1445/CH11/EX11.1/ch11_ex_1.sce
new file mode 100644
index 000000000..3b32400c1
--- /dev/null
+++ b/1445/CH11/EX11.1/ch11_ex_1.sce
@@ -0,0 +1,26 @@
+//CHAPTER 11- SINGLE PHASE INDUCTION MOTOR
+//Examle 1
+
+disp("CHAPTER 11");
+disp("EXAMPLE 1");
+
+//VARIABLE INITIALIZATION
+P=6;                      //number of poles
+f=50;                     //frequency in Hz
+pow_fd=160;               //gross power absorbed by forward field in W
+pow_bd=20;                //gross power absorbed by backward field in W
+N_r=950;                  //rotor speed in rpm
+loss=75;                  //no load frictional loss in W
+
+//SOLUTION
+P_g=pow_fd-pow_bd;        //air-gap power
+N_s=(120*f)/P;            //synchronous speed
+S=(N_s-N_r)/N_s;          //slip
+P_m=P_g*(1-S);            //mechanical power
+P_o=P_m-loss;             //output or shaft power
+w=(2*%pi*N_r)/60;
+T=P_o/w;                 
+disp(sprintf("The shaft torque is %f N-m",T));
+
+//END
+
diff --git a/1445/CH11/EX11.2/ch11_ex_2.sce b/1445/CH11/EX11.2/ch11_ex_2.sce
new file mode 100644
index 000000000..c097fb6a4
--- /dev/null
+++ b/1445/CH11/EX11.2/ch11_ex_2.sce
@@ -0,0 +1,33 @@
+//CHAPTER 11- SINGLE PHASE INDUCTION MOTOR
+//Examle 2
+
+disp("CHAPTER 11");
+disp("EXAMPLE 2");
+
+//VARIABLE INITIALIZATION
+P=4;              //numbre of poles
+f=60;             //frequency on Hz
+N_r=1710;         //rotor speed in rpm
+r=12.5;           //in ohms
+
+//SOLUTION
+
+N_s=(120*f)/P;
+
+//solution (a)
+disp("Solution (a)");
+S_f=(N_s-N_r)/N_s; 
+disp(sprintf("The slip in forward direction is %f %%",S_f*100));     
+r_f=0.5*(r/S_f);
+disp(sprintf("The forward effective rotor resistance is %f Ω",r_f));
+
+//solution (b)
+disp("Solution (b)");
+S_b=(N_s+N_r)/N_s; 
+disp(sprintf("The slip in backward direction is %f %%",S_b*100));    
+r_b=0.5*(r/S_b);
+disp(sprintf("The backward effective rotor resistance is %f Ω",r_b));
+
+//END
+
+ 
-- 
cgit