Yes. When the lines are used to make a square, they're called "sides" of the square.
A square can be drawn with four lines.
Use four to make a normal square and put two lines on top of another
no we cant make
Using the first four lines, draw a square. Now use the next two lines to bisect the square both horizontally and vertically. You now have one square divided into four smaller squares. Use the last two lines to diagonally bisect two of the four smaller squares. There you go.
Some people make the mistake of thinking a square has 8 lines of symmetry, however it actually has 4 lines of symmetry. An equilateral triangle has 3 lines of symmetry.
No.
This site doesn't let you use pictures, but I assume you just connect all four lines, since a square has four lines...
Yes. When the lines are used to make a square, they're called "sides" of the square.
A square can be drawn with four lines.
Use four to make a normal square and put two lines on top of another
No. A pentagon can have 1 or 5 lines of symmetry.
It would be infinite.
no we cant make
Not a clue. The correct answer is to take away a square. Since it requires 4 lines to make a square in the first place. Bam, just take away one of the squares. Pretty simple.
Well, honey, a square is the quadrilateral you're looking for. It's got those four equal sides and four right angles that make it a perfect fit for that rotational symmetry of order 4. So, if you want a shape that can twirl around like a pro, go for that trusty ol' square.
Using the first four lines, draw a square. Now use the next two lines to bisect the square both horizontally and vertically. You now have one square divided into four smaller squares. Use the last two lines to diagonally bisect two of the four smaller squares. There you go.