Answer:
TRY FRIDRICH METHOD ITS WAY EASIER
Explanation:
1. First of all we have to solve the white edge pieces in the bottom. This seems to be the easiest but it's really hard if you want to do it right. You should be able to determine all the rotations needed to complete the white cross after inspecting the cube, and you'll succeed only if you foresee 7 steps.
2. When the cross is done we solve the first two layers (F2L) in one step using a technique to pair the white corner and second layer edge pieces. We are talking about four corner blocks which usually require 4x7 steps.
3. Orienting the last layer (OLL) of the Rubik's Cube is the step in which we solve the yellow face without matching the side colours. We are going to position them in the next step. Learn all the 57 algorithms to complete this step.
4. Permutate the last layer (PLL) to finish the solution of your cube. There are 21 algorithms to memorize.
What was specific about his painting technique was that he would always try to involve the viewer of the painting by drawing eyes and the positioning of his characters in such a way that it always seems as if they're maintaining eye contact with the audience. This was done using various perspectives and is kind of like an illusion, similarly to how the Mona Lisa is painted.
Answer:
Jan van Eyck was a leading force in 15th-century Flemish painting, due to his innovations in the use of optical perspective and handling of oil paint.
Explanation:
the answer is C
Explanation:
I don't know why I just know that its C because I always choose C for my answers. This is because i'm smart >:)
