They have 8 vertices, 12 edges and 6 faces. All edges meet at right angles. All faces meet at right angles. Every face is a rectangle (a square is a rectangle). The three vertex-to-opposite-vertex diagonals meet at a point which is the centre of gravity. This point bisects the diagonals.
Yes, I can name one thing. A cuboid. What the hell is a cuboid anyway smartypants?
Correct. Two lines never meet in more than one point.
Lines intersect if the meet at one point. Perpendicular lines also meet at one point, but their intersection is a right angle. Intersecting lines in the plane do not meet at two points.
One.
There is no specific name for lines that meet at one point, but lines that meet at a point, the point is called the intersection point.
These are the vertices where three faces meet.
These are the points where three faces meet.
They are the corners where three faces meet.
Yes because they meet at right angles
They have 8 vertices, 12 edges and 6 faces. All edges meet at right angles. All faces meet at right angles. Every face is a rectangle (a square is a rectangle). The three vertex-to-opposite-vertex diagonals meet at a point which is the centre of gravity. This point bisects the diagonals.
A cuboid would fit the given description
A cuboid has 6 faces, 12 edges and 8 vertices which all meet at right angles.
There is not an equation. A cuboid consists of a three dimensional arrangement of 3 pairs of identical rectangles. One or two of these pair may, in fact, be squares. A triplet of rectangles - one from each pair - meet orthogonally at one of the 8 vertices.
Yes, I can name one thing. A cuboid. What the hell is a cuboid anyway smartypants?
Two lines that meet at one point is called an intersection. More than two seperae lines can be intersected at one point.
If the cuboid is very tiny, then one; otherwise, none.