let L be non empty addLoopStr ; :: thesis: ( ( for a being Element of L holds a + (0. L) = a ) & ( for a being Element of L ex x being Element of L st a + x = 0. L ) & ( for a, b, c being Element of L holds (a + b) + c = a + (b + c) ) implies for a being Element of L ex x being Element of L st x + a = 0. L )
assume that
A1: for a being Element of L holds a + (0. L) = a and
A2: for a being Element of L ex x being Element of L st a + x = 0. L and
A3: for a, b, c being Element of L holds (a + b) + c = a + (b + c) ; :: thesis: for a being Element of L ex x being Element of L st x + a = 0. L
let a be Element of L; :: thesis: ex x being Element of L st x + a = 0. L
consider x being Element of L such that
A4: a + x = 0. L by A2;
x + a = 0. L by A1, A2, A3, A4, Th1;
hence ex x being Element of L st x + a = 0. L ; :: thesis: verum