let k be Nat; :: thesis: cos ^2 is PI * (k + 1) -periodic
defpred S1[ Nat] means cos ^2 is PI * ($1 + 1) -periodic ;
A1: S1[ 0 ] by L11;
A2: for k being Nat st S1[k] holds
S1[k + 1]
proof
let k be Nat; :: thesis: ( S1[k] implies S1[k + 1] )
assume A3: cos ^2 is PI * (k + 1) -periodic ; :: thesis: S1[k + 1]
cos ^2 is PI * ((k + 1) + 1) -periodic
proof
for x being real number st x in dom (cos ^2 ) holds
( x + (PI * ((k + 1) + 1)) in dom (cos ^2 ) & x - (PI * ((k + 1) + 1)) in dom (cos ^2 ) & (cos ^2 ) . x = (cos ^2 ) . (x + (PI * ((k + 1) + 1))) )
proof
let x be real number ; :: thesis: ( x in dom (cos ^2 ) implies ( x + (PI * ((k + 1) + 1)) in dom (cos ^2 ) & x - (PI * ((k + 1) + 1)) in dom (cos ^2 ) & (cos ^2 ) . x = (cos ^2 ) . (x + (PI * ((k + 1) + 1))) ) )
assume A7: x in dom (cos ^2 ) ; :: thesis: ( x + (PI * ((k + 1) + 1)) in dom (cos ^2 ) & x - (PI * ((k + 1) + 1)) in dom (cos ^2 ) & (cos ^2 ) . x = (cos ^2 ) . (x + (PI * ((k + 1) + 1))) )
A9: ( x + (PI * ((k + 1) + 1)) in dom cos & x - (PI * ((k + 1) + 1)) in dom cos ) by SIN_COS:27;
(cos ^2 ) . (x + (PI * ((k + 1) + 1))) = (cos . ((x + (PI * (k + 1))) + PI )) ^2 by VALUED_1:11
.= (- (cos . (x + (PI * (k + 1))))) ^2 by SIN_COS:83
.= (cos . (x + (PI * (k + 1)))) ^2
.= (cos ^2 ) . (x + (PI * (k + 1))) by VALUED_1:11 ;
hence ( x + (PI * ((k + 1) + 1)) in dom (cos ^2 ) & x - (PI * ((k + 1) + 1)) in dom (cos ^2 ) & (cos ^2 ) . x = (cos ^2 ) . (x + (PI * ((k + 1) + 1))) ) by A3, Th1, A7, A9, VALUED_1:11; :: thesis: verum
end;
hence cos ^2 is PI * ((k + 1) + 1) -periodic by Th1; :: thesis: verum
end;
hence S1[k + 1] ; :: thesis: verum
end;
for n being Nat holds S1[n] from NAT_1:sch 2(A1, A2);
 hence cos ^2 is PI * (k + 1) -periodic ; :: thesis: verum