diff --git a/Python/02. Basic Data Types/dealing_with_complex_numbers.py b/Python/02. Basic Data Types/dealing_with_complex_numbers.py
new file mode 100644
index 0000000..42eebff
--- /dev/null
+++ b/Python/02. Basic Data Types/dealing_with_complex_numbers.py	
@@ -0,0 +1,56 @@
+import math
+
+class Complex(object):
+    def __init__(self, real, imaginary):
+        self.real=real
+        self.imaginary=imaginary
+        
+    def __add__(self, no):
+        #return self.real+self.imaginary
+        self.no=no
+        # print(self.real) 2.00
+        # print(no.real)   5.00
+        # print(self.imaginary) 1.00
+        # print(no.imaginary)    6.00
+        return Complex(self.real+no.real,self.imaginary+no.imaginary)
+ 
+    def __sub__(self, no):
+        return Complex(self.real-no.real,self.imaginary-no.imaginary)
+        
+    def __mul__(self, no):
+        #return Complex(self.real*no .real-self.imaginary*no.imaginary,(self.real*no.real+(self.real+no.real)))
+        return Complex(self.real*no .real-self.imaginary*no.imaginary,(self.real*no.imaginary+(self.imaginary*no.real)))
+    def __truediv__(self, no):
+       # print(self.real*no .real-self.imaginary*(-no.imaginary),(self.real*no.real+(self.real+no.real)))
+       #if no.real<0:
+        a=no.real*no.real+((no.imaginary*no.imaginary))
+        b=self.real*no.real+self.imaginary*(no.imaginary)
+        c=self.real*(-no.imaginary)+(self.imaginary*no.real)
+        #print(b,c)
+        
+        return Complex(b/a,c/a)
+
+    def mod(self):
+        #return Complex(f"{math.sqrt(self.real**2+self.imaginary**2):.2f}",'0.00')
+        #return Complex((float(f"{math.sqrt(self.real**2+self.imaginary**2)}")),0.00)
+         return Complex((float(math.sqrt(self.real**2+self.imaginary**2))),0.00)
+    def __str__(self):
+        if self.imaginary == 0:
+            result = "%.2f+0.00i" % (self.real)
+        elif self.real == 0:
+            if self.imaginary >= 0:
+                result = "0.00+%.2fi" % (self.imaginary)
+            else:
+                result = "0.00-%.2fi" % (abs(self.imaginary))
+        elif self.imaginary > 0:
+            result = "%.2f+%.2fi" % (self.real, self.imaginary)
+        else:
+            result = "%.2f-%.2fi" % (self.real, abs(self.imaginary))
+        return result
+
+if __name__ == '__main__':
+    c = map(float, input().split())
+    d = map(float, input().split())
+    x = Complex(*c)
+    y = Complex(*d)
+    print(*map(str, [x+y, x-y, x*y, x/y, x.mod(), y.mod()]), sep='\n')