No, radial symmetry has the one with many lines.
No, radial symmetry cannot be cut in half because it is a pattern where multiple lines of symmetry can be drawn through a central point, resulting in equal parts around that point. Cutting it in half would disrupt its symmetry.
Flies are arthropods and all arthropods have bilateral symmetry. This means they have symmetry across one plane (known as the sagittal plane, and directly down the centre of their body), which means one side of their body approximately mirrors the other side.
In general, a person cannot physically see the lines that divide time zones. They are imaginary lines used to separate regions that observe different standard times.
latitude lines I think
Bi-axial symmetry refers to an object or organism that can be divided into two equal halves in two different ways, resulting in two possible lines of symmetry. This characteristic is commonly found in certain crystals and some sea creatures.
Believe it or not Mollusks start out with bilateral symmetry. Some retain it such as slugs, snails, squid, octopuses, and limpets. Then there are others that lose it as they mature such as oysters, clams, scallops, etc.
There are only two lines of symmetry. Divide either of the two opposite sides of the rectangle in half and join these two points.
By cutting through its lines of symmetry or its diagonals
Leaves that exhibit lines of symmetry typically include those with a bilateral or mirror symmetry, such as oak, maple, and aspen leaves. These leaves can be divided into two identical halves along a central line. In contrast, leaves with irregular shapes, such as those from certain tropical plants, usually do not have lines of symmetry. Symmetry in leaves often plays a role in their evolutionary adaptation and efficiency in photosynthesis.
when you have only one line of symmetry its called half symmetry because there isn't anymore lines.....
A basketball has an infinite number of lines of symmetry. This is because a basketball is a perfect sphere, and any plane passing through its center will divide it into two equal halves that are symmetrical. Therefore, there are an infinite number of lines of symmetry that can be drawn on a basketball.
Organisms that are considered to be simple, such as corals, sponges, urchins, many bacteria and protists all lack bilateral symmetry. The symmetry of these animals is one of the ways they are distinguished from each other and classified into groups.
A parallelogram has two lines of symmetry. These lines are the diagonals, which bisect each other, and the vertical and horizontal lines that pass through the midpoints of opposite sides. However, the only lines of symmetry that divide the shape into mirror-image halves are the diagonals. Thus, a standard parallelogram typically exhibits two lines of symmetry.
2 lines of symmetry
One's body has just one line of symmetry. Humans have bilateral symmetry. This means they have symmetry across one plane (known as the sagittal plane, and directly down the centre of their body), which means one side of their body approximately mirrors the other side.
A chess board is a square, so it would have 4 lines of symmetry: two going diagonally, and 2 across the middle of the board that divide the sides in half.
Dogs have no lines of symmetry. They're never completely equal on both sides. No creatures are. However, in terms of biology, dogs, like all vertebrates, have bilateral symmetry. This means they have symmetry across one plane (known as the sagittal plane, and directly down the centre of their body), which means one side of their body approximately mirrors the other side. Thus, they have a single line of symmetry.