let r be Real; for i, j, n being Nat st 1 <= i & i < j & j <= n holds
Det (Rotation (i,j,n,r)) = 1. F_Real
let i, j, n be Nat; ( 1 <= i & i < j & j <= n implies Det (Rotation (i,j,n,r)) = 1. F_Real )
assume A1:
( 1 <= i & i < j & j <= n )
; Det (Rotation (i,j,n,r)) = 1. F_Real
then consider A being Matrix of n,F_Real such that
A2:
Det A = 1. F_Real
and
A3:
( A * (i,i) = cos r & A * (j,j) = cos r & A * (i,j) = sin r & A * (j,i) = - (sin r) & ( for k, m being Nat st [k,m] in Indices A holds
( ( k = m & k <> i & k <> j implies A * (k,k) = 1. F_Real ) & ( k <> m & {k,m} <> {i,j} implies A * (k,m) = 0. F_Real ) ) ) )
by Lm3;
Det A <> 0. F_Real
by A2;
then
A is invertible
by LAPLACE:34;
hence
Det (Rotation (i,j,n,r)) = 1. F_Real
by A1, A2, A3, Def3; verum