let L be non empty doubleLoopStr ; :: thesis:
thus ( L is _Field implies ( ( 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) ) & ( for a, b being Element of L holds a + b = b + a ) & 0. L <> 1. L & ( for a being Element of L holds a * (1. L) = a ) & ( for a being Element of L st a <> 0. L holds
ex x being Element of L st a * x = 1. L ) & ( for a being Element of L holds a * (0. L) = 0. L ) & ( for a, b, c being Element of L holds (a * b) * c = a * (b * c) ) & ( for a, b, c being Element of L holds a * (b + c) = (a * b) + (a * c) ) & ( for a, b being Element of L holds a * b = b * a ) ) ) by Th32, GROUP_1:def 16; :: thesis:
assume A1: ( ( 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) ) & ( for a, b being Element of L holds a + b = b + a ) & 0. L <> 1. L & ( for a being Element of L holds a * (1. L) = a ) & ( for a being Element of L st a <> 0. L holds
ex x being Element of L st a * x = 1. L ) & ( for a being Element of L holds a * (0. L) = 0. L ) & ( for a, b, c being Element of L holds (a * b) * c = a * (b * c) ) & ( for a, b, c being Element of L holds a * (b + c) = (a * b) + (a * c) ) & ( for a, b being Element of L holds a * b = b * a ) ) ; :: thesis:
A2: for a being Element of L holds (0. L) * a = 0. L

proof

let a be Element of L; :: thesis:
thus (0. L) * a = a * (0. L) by A1
.= 0. L by A1 ; :: thesis:

end;

for a, b, c being Element of L holds (b + c) * a = (b * a) + (c * a)

proof

let a, b, c be Element of L; :: thesis:
thus (b + c) * a = a * (b + c) by A1
.= (a * b) + (a * c) by A1
.= (b * a) + (a * c) by A1
.= (b * a) + (c * a) by A1 ; :: thesis:

end;

hence L is _Field by A1, A2, Th32, GROUP_1:def 16; :: thesis: