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A quadrilateral has four sides with lengths, two diagonals with lengths, four inside angles, four outside angles, and an area. The angles are the only things you can measure with a protractor.
a rectangle (that is NOT a square) has 4 right angles and consecutive sides of unequal lengths.
Four line segments can always form a quadrilateral, as long as none of them is longer than the sum of the lengths of the other three,
The four side lengths do not provide enough information to uniquely identify quadrilateral. However, if any three sides, added together, exceed the length of the fourth, then it is possible to draw a quadrilateral.
Four lengths indicate that the figure is a quadrilateral. Unfortunately, quadrilaterals are not rigid so that a set of four lengths can give rise to infinitely many shapes with infinitely many areas. This is on the same principle that a quadrilateral with four equal sides can be a square or a very thin rhombus.
A quadrilateral is a four sided figure, so sum the lengths of its four sides.
If you want the perimeter of a quadrilateral, then finding the midpoints is a complete waste of time! Simply add together the lengths of the four sides.
It is not possible to answer the question.The fact that there are four lengths given in the question suggests that the shape is a quadrilateral. Unfortunately, the lengths of a quadrilateral's sides does not determine its area. One way to see this is that a square can be flexed into a rhombus and the top and bottom sides of the rhombus brought closer and closer together until its area is almost zero.It is not possible to answer the question.The fact that there are four lengths given in the question suggests that the shape is a quadrilateral. Unfortunately, the lengths of a quadrilateral's sides does not determine its area. One way to see this is that a square can be flexed into a rhombus and the top and bottom sides of the rhombus brought closer and closer together until its area is almost zero.It is not possible to answer the question.The fact that there are four lengths given in the question suggests that the shape is a quadrilateral. Unfortunately, the lengths of a quadrilateral's sides does not determine its area. One way to see this is that a square can be flexed into a rhombus and the top and bottom sides of the rhombus brought closer and closer together until its area is almost zero.It is not possible to answer the question.The fact that there are four lengths given in the question suggests that the shape is a quadrilateral. Unfortunately, the lengths of a quadrilateral's sides does not determine its area. One way to see this is that a square can be flexed into a rhombus and the top and bottom sides of the rhombus brought closer and closer together until its area is almost zero.
Square
diagonals
A quadrilateral has four sides with lengths, two diagonals with lengths, four inside angles, four outside angles, and an area. The angles are the only things you can measure with a protractor.
a rectangle (that is NOT a square) has 4 right angles and consecutive sides of unequal lengths.
Four line segments can always form a quadrilateral, as long as none of them is longer than the sum of the lengths of the other three,
It is not possible to answer the question. The fact that there are four lengths given suggests that the shape is quadrilateral. However, for a quadrilateral, the side lengths do not provide enough information since a quadrilateral can be skewed: from a trapezium to a narrow needle-like shape.
A rectangle is generally defined as a quadrilateral with four right angles. No rectangle can have four different side lengths by that definition. Finding the area of such a shape is therefore impossible.
The four side lengths do not provide enough information to uniquely identify quadrilateral. However, if any three sides, added together, exceed the length of the fourth, then it is possible to draw a quadrilateral.
Four lengths indicate that the figure is a quadrilateral. Unfortunately, quadrilaterals are not rigid so that a set of four lengths can give rise to infinitely many shapes with infinitely many areas. This is on the same principle that a quadrilateral with four equal sides can be a square or a very thin rhombus.