Answer to Question #226040 in Complex Analysis for smi

The complex sphere "\\bar\\mathbb{C}" is a complex manifold with two charts "(U_1,z_1)" and "(U_2,z_2)", both with domain equal to the complex number plane "\\mathbb{C}". The intersection of domains "U_1" and "U_2" is

"U_1\\cap U_2=U_1\\setminus\\{z_1=0\\}=U_2\\setminus\\{z_2=0\\}", the transition map "z_2=z_1^{-1}".

Let "K_1=\\{z_1\\in U_1:|z_1|\\leq 1\\}", "K_2=\\{z_2\\in U_2:|z_2|\\leq 1\\}" be two closed unit disks. They are compact as closed bounded subsets of "\\mathbb{C}".

We will prove that the complex sphere "\\bar\\mathbb{C}" is compact by showing that "\\bar\\mathbb{C}=K_1\\cup K_2". It is evident that "\\bar\\mathbb{C}\\supset K_1\\cup K_2".

Consider any point "P\\in U_1\\cap U_2".

If "z_1(P)\\leq 1", then "P\\in K_1".

If "|z_1(P)|> 1", then "|z_2(P)|=|z_1(P)|^{-1}\\leq 1" and "P\\in K_2". Therefore, "U_1\\cap U_2\\subset K_1\\cup K_2".

Since the point "\\{z_1=0\\}\\in K_1" and the point "\\{z_2=0\\}\\in K_2", it follows that"\\bar\\mathbb{C}=U_1\\cup U_2=(U_1\\cap U_2)\\cup\\{z_1=0\\}\\cup\\{z_2=0\\}\\subset K_1\\cup K_2".

Therefore "\\bar\\mathbb{C}=K_1\\cup K_2" and "\\bar\\mathbb{C}" is compact.