1 files changed, 46 insertions, 46 deletions
diff --git a/854/CH2/EX2.2/Example2_2.sce b/854/CH2/EX2.2/Example2_2.sce
index 38968b0f2..fa2f12650 100755
--- a/854/CH2/EX2.2/Example2_2.sce
+++ b/854/CH2/EX2.2/Example2_2.sce
@@ -1,46 +1,46 @@
-//clear//
-//Caption:Program to Caculate Electric Field E at P due to 4 identical charges
-//Example2.2
-//page 33
-clc;
-P = [1,1,1];
-P1 = [1,1,0];
-P2 = [-1,1,0];
-P3 = [-1,-1,0];
-P4 = [1,-1,0];
-R1 = norm(P-P1);
-aR1 = UnitVector(P-P1);
-R2  = norm(P-P2);
-aR2 = UnitVector(P-P2);
-R3  = norm(P-P3);
-aR3 = UnitVector(P-P3);
-R4  = norm(P-P4);
-aR4 = UnitVector(P-P4);
-disp(R1,'R1=')
-disp(aR1,'aR1=')
-disp(R2,'R2=')
-disp(aR2,'aR2=')
-disp(R3,'R3=')
-disp(aR3,'aR3=')
-disp(R4,'R4=')
-disp(aR4,'aR4=')
-Q = 3e-09; //charge  in Coulombs
-Eps = 8.854e-12; //free space permittivity
-E1 = (Q/(4*%pi*Eps*R1^2))*aR1;
-E2 = (Q/(4*%pi*Eps*R2^2))*aR2;
-E3 = (Q/(4*%pi*Eps*R3^2))*aR3;
-E4 = (Q/(4*%pi*Eps*R4^2))*aR4;
-E = E1+E2+E3+E4;
-disp(E,'Electric Field Intesnity at any point P due to four identical Charges in V/m=')
-//Result
-//R1=      1.  
-//aR1=     0.    0.    1.  
-//R2=      2.236068  
-//aR2=     0.8944272    0.    0.4472136  
-//R3=      3.  
-//aR3=     0.6666667    0.6666667    0.3333333  
-//R4=      2.236068  
-//aR4=     0.    0.8944272    0.4472136  
-//Electric Field Intesnity at any point P due to four identical Charges in V/m=   
-//  6.8206048    6.8206048    32.785194  
-// 
+clear//
+//Caption:Program to Caculate Electric Field E at P due to 4 identical charges
+//Example2.2
+//page 33
+clc;
+P = [1,1,1];
+P1 = [1,1,0];
+P2 = [-1,1,0];
+P3 = [-1,-1,0];
+P4 = [1,-1,0];
+R1 = norm(P-P1);
+aR1 = (P-P1)/R1;
+R2  = norm(P-P2);
+aR2 = (P-P2)/R2;
+R3  = norm(P-P3);
+aR3 = (P-P3)/R3;
+R4  = norm(P-P4);
+aR4 = (P-P4)/R4;
+disp(R1,'R1=')
+disp(aR1,'aR1=')
+disp(R2,'R2=')
+disp(aR2,'aR2=')
+disp(R3,'R3=')
+disp(aR3,'aR3=')
+disp(R4,'R4=')
+disp(aR4,'aR4=')
+Q = 3e-09; //charge  in Coulombs
+Eps = 8.854e-12; //free space permittivity
+E1 = (Q/(4*%pi*Eps*R1^2))*aR1;
+E2 = (Q/(4*%pi*Eps*R2^2))*aR2;
+E3 = (Q/(4*%pi*Eps*R3^2))*aR3;
+E4 = (Q/(4*%pi*Eps*R4^2))*aR4;
+E = E1+E2+E3+E4;
+disp(E,'Electric Field Intesnity at any point P due to four identical Charges in V/m=')
+//Result
+//R1=      1.  
+//aR1=     0.    0.    1.  
+//R2=      2.236068  
+//aR2=     0.8944272    0.    0.4472136  
+//R3=      3.  
+//aR3=     0.6666667    0.6666667    0.3333333  
+//R4=      2.236068  
+//aR4=     0.    0.8944272    0.4472136  
+//Electric Field Intesnity at any point P due to four identical Charges in V/m=   
+//  6.8206048    6.8206048    32.785194  
+//
+\ No newline at end of file