To determine if it is possible to draw a quadrilateral given four side lengths, you can use the triangle inequality theorem. The theorem states that the sum of the lengths of any two sides of a triangle must be greater than the length of the third side. If this condition is met for all combinations of three sides using the given side lengths, then it is possible to construct a quadrilateral. If the sum of the lengths of any two sides is equal to or less than the length of the third side for any combination, then it is not possible to draw a quadrilateral with those side lengths.
No
It's entirely possible to draw a quadrilateral with 3 acute angles.The fourth angle must be obtuse or reflex, but so what ? !
Yes, you can, and there are infinitely many ways of doing so. 1) Connect the midpoints 2) Notice the parallelogram shape 3) Double the length of one of the sides, and draw it parallel to that side 4) Match the ends of that line to the midpoints. 5) Voila! A quadrilateral with the 4 points as midpoints.
Draw a square
No
No
nope. der.
Is it possible to draw a quadrilateral with sides 2", 4", 5" and 12" long? If not, why not?
yes it is possible
Yes, it is possible to draw a quadrilateral that is neither a trapezoid nor a parallelogram. One example is a kite, which has two pairs of adjacent sides that are equal in length but does not have parallel sides. Another example is a concave quadrilateral, where at least one of the interior angles is greater than 180 degrees, making it neither a trapezoid nor a parallelogram.
Yes.
Yes, providing it has 4 sides.
It's entirely possible to draw a quadrilateral with 3 acute angles.The fourth angle must be obtuse or reflex, but so what ? !
It is possible, but unfortunately, wikianswers makes it impossible to draw any mathematical shape of any kind.
show the drawing
Yes, you can, and there are infinitely many ways of doing so. 1) Connect the midpoints 2) Notice the parallelogram shape 3) Double the length of one of the sides, and draw it parallel to that side 4) Match the ends of that line to the midpoints. 5) Voila! A quadrilateral with the 4 points as midpoints.
That is impossible as a square IS quadrilateral