Metamath Proof Explorer


Theorem ehl2eudisval

Description: The value of the Euclidean distance function in a real Euclidean space of dimension 2. (Contributed by AV, 16-Jan-2023)

Ref Expression
Hypotheses ehl2eudis.e E = 𝔼 hil 2
ehl2eudis.x X = 1 2
ehl2eudis.d D = dist E
Assertion ehl2eudisval F X G X F D G = F 1 G 1 2 + F 2 G 2 2

Proof

Step Hyp Ref Expression
1 ehl2eudis.e E = 𝔼 hil 2
2 ehl2eudis.x X = 1 2
3 ehl2eudis.d D = dist E
4 1 2 3 ehl2eudis D = f X , g X f 1 g 1 2 + f 2 g 2 2
5 4 oveqi F D G = F f X , g X f 1 g 1 2 + f 2 g 2 2 G
6 eqidd F X G X f X , g X f 1 g 1 2 + f 2 g 2 2 = f X , g X f 1 g 1 2 + f 2 g 2 2
7 fveq1 f = F f 1 = F 1
8 fveq1 g = G g 1 = G 1
9 7 8 oveqan12d f = F g = G f 1 g 1 = F 1 G 1
10 9 oveq1d f = F g = G f 1 g 1 2 = F 1 G 1 2
11 fveq1 f = F f 2 = F 2
12 fveq1 g = G g 2 = G 2
13 11 12 oveqan12d f = F g = G f 2 g 2 = F 2 G 2
14 13 oveq1d f = F g = G f 2 g 2 2 = F 2 G 2 2
15 10 14 oveq12d f = F g = G f 1 g 1 2 + f 2 g 2 2 = F 1 G 1 2 + F 2 G 2 2
16 15 fveq2d f = F g = G f 1 g 1 2 + f 2 g 2 2 = F 1 G 1 2 + F 2 G 2 2
17 16 adantl F X G X f = F g = G f 1 g 1 2 + f 2 g 2 2 = F 1 G 1 2 + F 2 G 2 2
18 simpl F X G X F X
19 simpr F X G X G X
20 fvexd F X G X F 1 G 1 2 + F 2 G 2 2 V
21 6 17 18 19 20 ovmpod F X G X F f X , g X f 1 g 1 2 + f 2 g 2 2 G = F 1 G 1 2 + F 2 G 2 2
22 5 21 eqtrid F X G X F D G = F 1 G 1 2 + F 2 G 2 2