if you mean "vertices" by "corners" then sixteen
16
No, it does not. If a circle does not have corners, neither does a cylinder. You can think of a cylinder as many circles stacked on top of one another.
none, its a cylinder, its two circles connected by one tube, there are no cornersYeah, none.
4 faces 12 corners i think thats right... ;]
There will be 64 cubes total.The original 8 corners will have three red faces.The cubes that came from the original 12 edges excluding the original 4 corners will be 24 with two red faces (adjoining faces).There will also be leftover 24 cubes with one red face and 8 cubes with no red paint.8+24+24+8 = 64
A cylinder has 3 faces: two circular bases and one curved surface. It has 2 edges where the bases meet the curved surface. In terms of vertices, a cylinder has 0 vertices, as there are no sharp corners.
A 3D cylinder has two circular bases, each contributing one vertex at the top and one at the bottom. However, since the edges of the cylinder are curved and there are no distinct corners, it technically has zero vertices in the traditional sense. Therefore, a cylinder has 0 vertices.
Assuming that the cubes are 1x1x1, there will be one thousand cubes in the larger cube.
2 edges (curved), 0 corners, and 3 faces (one of which is not flat) ------------------------------------------------------------------------------------------------- A cylinder has 0 vertices (corners), 0 edges, and 2 faces. If you need convincing, my proof is Euler's formula, which which relates all three and is true for all solids in Euclidean 3-space: V + F - E = 2 0 + 2 - 0 = 2 You cannot consider the curved boundaries when counting faces or edges.
One curved side and NO corners.
one
I am assuming that your question states that the top and sides are painted red but the bottom isn't. If so, the answer is:- There are no cubes with 4 faces painted, the most that can be painted is 3 for the ones on the corners. There are 4 corners at the top of the cube that will have their top and 2 sides painted. Therefore there are 4 cubes with 3 painted. The cubes at the corners on the second and third row down will have 2 faces painted, as will the middle cubes on the top row so there are 12 of them in this puzzle. The cube in the middle of each painted face will have just one face painted so this is 5 (assuming the bottom isn't painted). The cubes in the middle of the bottom row will also have one face painted. This brings the total to 9 That is the total of cubes that have paint on them... 4+12+9 = 25 There are 27 cubes in your puzzle so only 2 have no painted faces. The cube right in the middle and the cube in the middle of the bottom layer.