Claim L0: OSNo ...

...

Claim L1: OSNo Octonion_i3

The subproof is completed by applying OSNo_Octonion_i3.

Claim L2: OSNo Quaternion_k

The subproof is completed by applying OSNo_Quaternion_k.

Claim L3: OSNo (mul_OSNo Octonion_i6 Octonion_i3)

Apply OSNo_mul_OSNo with Octonion_i6, Octonion_i3 leaving 2 subgoals.

The subproof is completed by applying L0.

The subproof is completed by applying L1.

Apply OSNo_proj0proj1_split with mul_OSNo Octonion_i6 Octonion_i3, Quaternion_k leaving 4 subgoals.

The subproof is completed by applying L3.

The subproof is completed by applying L2.

Apply OSNo_p0_k with λ x0 x1 . OSNo_proj0 (mul_OSNo Octonion_i6 Octonion_i3) = x1.

Apply mul_OSNo_proj0 with Octonion_i6, Octonion_i3, λ x0 x1 . x1 = Quaternion_k leaving 3 subgoals.

The subproof is completed by applying L0.

The subproof is completed by applying L1.

Apply OSNo_p0_i6 with λ x0 x1 . add_HSNo (mul_HSNo x1 (OSNo_proj0 Octonion_i3)) (minus_HSNo (mul_HSNo (conj_HSNo (OSNo_proj1 Octonion_i3)) (OSNo_proj1 Octonion_i6))) = Quaternion_k.

Apply OSNo_p1_i6 with λ x0 x1 . add_HSNo (mul_HSNo 0 (OSNo_proj0 Octonion_i3)) (minus_HSNo (mul_HSNo (conj_HSNo (OSNo_proj1 Octonion_i3)) x1)) = Quaternion_k.

Apply OSNo_p0_i3 with λ x0 x1 . add_HSNo (mul_HSNo 0 x1) (minus_HSNo (mul_HSNo (conj_HSNo (OSNo_proj1 Octonion_i3)) (minus_HSNo Quaternion_j))) = Quaternion_k.

Apply OSNo_p1_i3 with λ x0 x1 . add_HSNo (mul_HSNo 0 0) (minus_HSNo (mul_HSNo (conj_HSNo x1) (minus_HSNo Quaternion_j))) = Quaternion_k.

Apply mul_HSNo_0L with 0, λ x0 x1 . add_HSNo x1 (minus_HSNo (mul_HSNo (conj_HSNo (minus_HSNo Complex_i)) (minus_HSNo Quaternion_j))) = Quaternion_k leaving 2 subgoals.

The subproof is completed by applying HSNo_0.

Apply conj_minus_HSNo with Complex_i, λ x0 x1 . add_HSNo 0 (minus_HSNo (mul_HSNo x1 (minus_HSNo Quaternion_j))) = Quaternion_k leaving 2 subgoals.

The subproof is completed by applying HSNo_Complex_i.

Apply conj_HSNo_i with λ x0 x1 . add_HSNo 0 (minus_HSNo (mul_HSNo (minus_HSNo x1) (minus_HSNo Quaternion_j))) = Quaternion_k.

Apply minus_HSNo_invol with Complex_i, λ x0 x1 . add_HSNo 0 (minus_HSNo (mul_HSNo x1 (minus_HSNo Quaternion_j))) = Quaternion_k leaving 2 subgoals.

The subproof is completed by applying HSNo_Complex_i.

Apply minus_mul_HSNo_distrR with Complex_i, Quaternion_j, λ x0 x1 . add_HSNo 0 (minus_HSNo x1) = Quaternion_k leaving 3 subgoals.

The subproof is completed by applying HSNo_Complex_i.

The subproof is completed by applying HSNo_Quaternion_j.

Apply Quaternion_i_j with λ x0 x1 . add_HSNo 0 (minus_HSNo (minus_HSNo x1)) = Quaternion_k.

Apply minus_HSNo_invol with Quaternion_k, λ x0 x1 . add_HSNo 0 x1 = Quaternion_k leaving 2 subgoals.

The subproof is completed by applying HSNo_Quaternion_k.

Apply add_HSNo_0L with Quaternion_k.

The subproof is completed by applying HSNo_Quaternion_k.

Apply OSNo_p1_k with λ x0 x1 . OSNo_proj1 (mul_OSNo Octonion_i6 Octonion_i3) = x1.

Apply mul_OSNo_proj1 with Octonion_i6, Octonion_i3, λ x0 x1 . x1 = 0 leaving 3 subgoals.

The subproof is completed by applying L0.

The subproof is completed by applying L1.

Apply OSNo_p0_i6 with λ x0 x1 . add_HSNo (mul_HSNo (OSNo_proj1 Octonion_i3) x1) (mul_HSNo (OSNo_proj1 Octonion_i6) (conj_HSNo (OSNo_proj0 Octonion_i3))) = 0.

Apply OSNo_p1_i6 with λ x0 x1 . add_HSNo (mul_HSNo (OSNo_proj1 Octonion_i3) 0) (mul_HSNo x1 (conj_HSNo (OSNo_proj0 Octonion_i3))) = 0.

Apply OSNo_p0_i3 with λ x0 x1 . add_HSNo (mul_HSNo (OSNo_proj1 Octonion_i3) 0) (mul_HSNo (minus_HSNo Quaternion_j) (conj_HSNo x1)) = 0.

Apply OSNo_p1_i3 with λ x0 x1 . add_HSNo (mul_HSNo x1 0) (mul_HSNo (minus_HSNo Quaternion_j) (conj_HSNo 0)) = 0.

Apply conj_HSNo_id_SNo with 0, λ x0 x1 . add_HSNo (mul_HSNo (minus_HSNo Complex_i) 0) (mul_HSNo (minus_HSNo Quaternion_j) x1) = 0 leaving 2 subgoals.

The subproof is completed by applying SNo_0.

Apply mul_HSNo_0R with minus_HSNo Complex_i, λ x0 x1 . add_HSNo x1 (mul_HSNo (minus_HSNo Quaternion_j) 0) = 0 leaving 2 subgoals.

Apply HSNo_minus_HSNo with Complex_i.

The subproof is completed by applying HSNo_Complex_i.

Apply mul_HSNo_0R with minus_HSNo Quaternion_j, λ x0 x1 . add_HSNo 0 x1 = 0 leaving 2 subgoals.

Apply HSNo_minus_HSNo with Quaternion_j.

The subproof is completed by applying HSNo_Quaternion_j.

Apply add_HSNo_0L with 0.

The subproof is completed by applying HSNo_0.

■

Proofgold Proof