let m, x, z, y be real number ; :: thesis: (m * x) + (z * y) <= (sqrt ((m ^2 ) + (z ^2 ))) * (sqrt ((x ^2 ) + (y ^2 )))
A1: z ^2 >= 0 by XREAL_1:65;
A2: m ^2 >= 0 by XREAL_1:65;
then A3: sqrt ((m ^2 ) + (z ^2 )) >= 0 by A1, SQUARE_1:def 4;
A4: ((m * x) + (z * y)) ^2 >= 0 by XREAL_1:65;
((m * y) ^2 ) + ((z * x) ^2 ) >= (2 * (m * y)) * (z * x) by SERIES_3:6;
then A5: (((m * y) ^2 ) + ((z * x) ^2 )) + (((m ^2 ) * (x ^2 )) + ((z ^2 ) * (y ^2 ))) >= ((((2 * m) * x) * y) * z) + (((m ^2 ) * (x ^2 )) + ((z ^2 ) * (y ^2 ))) by XREAL_1:8;
A6: y ^2 >= 0 by XREAL_1:65;
A7: x ^2 >= 0 by XREAL_1:65;
then A8: sqrt ((x ^2 ) + (y ^2 )) >= 0 by A6, SQUARE_1:def 4;
((sqrt ((m ^2 ) + (z ^2 ))) * (sqrt ((x ^2 ) + (y ^2 )))) ^2 = ((sqrt ((m ^2 ) + (z ^2 ))) ^2 ) * ((sqrt ((x ^2 ) + (y ^2 ))) ^2 )
.= ((m ^2 ) + (z ^2 )) * ((sqrt ((x ^2 ) + (y ^2 ))) ^2 ) by A2, A1, SQUARE_1:def 4
.= ((m ^2 ) + (z ^2 )) * ((x ^2 ) + (y ^2 )) by A7, A6, SQUARE_1:def 4
.= ((((m ^2 ) * (x ^2 )) + ((m * y) ^2 )) + ((z * x) ^2 )) + ((z ^2 ) * (y ^2 )) ;
then sqrt (((sqrt ((m ^2 ) + (z ^2 ))) * (sqrt ((x ^2 ) + (y ^2 )))) ^2 ) >= sqrt (((m * x) + (z * y)) ^2 ) by A5, A4, SQUARE_1:94;
then A9: (sqrt ((m ^2 ) + (z ^2 ))) * (sqrt ((x ^2 ) + (y ^2 ))) >= sqrt (((m * x) + (z * y)) ^2 ) by A3, A8, SQUARE_1:89;