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Four axes of symmetry: vertical axis, horizontal, positive diagonal (bottom left to top right) and negative diagonal (top left to bottom right). In fact, any straight line through the centre of the square divides it into two halves so there are an infinite number of ways, not just four. And the above are without looking at symmetric curves through the centre of the square.
Divide it across the diagonal - you don't need to measure anything.
The 2 diagonals of a trapezium are only equal when its in the form of an isosceles trapezium.
All the sides of a trapezium are not equal. Only two sides, which are not parallel, of a trapezium can be equal and such type of trapezium is called isosceles trapezium.
A Trapezium have 2 equal angles.
The 2 diagonals of a trapezium are only equal when its in the form of an isosceles trapezium.
A trapezium can have either 0 or 1 line of symmetry, depending on its specific shape. If the trapezium is a parallelogram, it will have one line of symmetry, which is the line that divides the shape into two equal halves. However, if the trapezium is not a parallelogram, it will have no lines of symmetry, as there is no way to divide it into two equal halves through a single line.
No, it is not possible to divide a trapezium into two congruent triangles. A trapezium has only one pair of parallel sides, while a triangle has no parallel sides. Therefore, it is not geometrically feasible to divide a trapezium into two congruent triangles.
Divide it across the diagonals - all four pieces will be the same.
Four axes of symmetry: vertical axis, horizontal, positive diagonal (bottom left to top right) and negative diagonal (top left to bottom right). In fact, any straight line through the centre of the square divides it into two halves so there are an infinite number of ways, not just four. And the above are without looking at symmetric curves through the centre of the square.
Divide it across the diagonal - you don't need to measure anything.
by divide in two halves equal
In general, there is no simple way of doing so.
There are two halves in 6. Each half represents one part of a whole, so when you divide 6 into halves, you get two equal parts of 3 each. This is because when you divide a number by 2, you are essentially splitting it into two equal parts.
The 2 diagonals of a trapezium are only equal when its in the form of an isosceles trapezium.
All the sides of a trapezium are not equal. Only two sides, which are not parallel, of a trapezium can be equal and such type of trapezium is called isosceles trapezium.
The diagonal of a parallelogram divides it into two congruent triangles. This is because the diagonal creates two pairs of congruent triangles by dividing the parallelogram into two equal halves.