draw lines and connect them
1. circles 2. triangles 3. squares 4. any of the polygons
There are 48 such squares.
No, a circle is not a regular polygon because it is not even a polygon.A polygon must have at least 3 sides and 3 angles (a circle has 1 side and has 0 angles), it has to be a closed shape, and it cannot have curved lines (circles are curved). Therefore, a circle is not a polygon. You *might* think that a circle is just made up of a gazillion squares, but no. It's simply just a curved shape.
6... with a remainder of 6 1x1 squares.
A polygon can have numerous amounts of sides. As long as it has at least 3 lines that connect.
A circle or sphere has an infinite number of lines of symmetry.
So whats the question? If i had 5 squares remove 3 lines to make 4 squares but keep the 3 lines within the 4 squares what?
Move 3 lines "from" - do you mean 'remove 3 lines from' - or - move 3 lines to other places? Anyway, this all depends on the layout of the five squares.
The ratio of three squares to five circles can be expressed as 3:5. This means for every three squares, there are five circles. The ratio shows the relative quantities of the two shapes compared to each other.
squares or rectangles
1. circles 2. triangles 3. squares 4. any of the polygons
. . . . . . . . . like this type only in 3 lines.
(11!) / (4!) (3!) (2!) (2!) = 69,300distinguishable arrangements
if 5 squares are there it gonna have 16 lines and removing 3 off the right end would still leave 4 squares
Easy. Step one: Draw a long-enough straight line. Step two: Draw 3 lines on each half of it to form squares Done.
In Power Lines 1 Level 3, you need to connect all the power lines to ensure they flow correctly. Focus on understanding the connections and the placement of the lines. Experiment with different configurations by moving the lines to see how they interact. If you're having trouble, consider retracing your steps and trying alternative routes to connect the lines efficiently.
this is not possible unless it is in a 3-d dimension