Chelicerates, a group that includes arachnids and horseshoe crabs, exhibit bilateral symmetry. This means their body can be divided into two mirror-image halves along a single plane that runs from head to tail. They typically show a clear distinction between the cephalothorax (the fused head and thorax) and the abdomen. Additionally, their body plan features paired appendages, which are characteristic of bilateral symmetry.
Penguins, 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.
Humans, like all mammals and other 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.
June bugs are arthropods, and 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.
Carp are fish; fish are vertebrates, and 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.
Tunicate larvae display bilateral symmetry, with a distinct left and right side that are mirror images of each other along the midline of the body. This symmetry is an adaptation for efficient movement and navigation in their aquatic environment.
bilateral symmetry
radial symmetry
radial symmetry
bilateral symmetry- body plan in which an animal that can be dinided into 2 equal sdes.
bilateral symmetry
bilateral symmetry
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.
Check a biology textbook - I reckon it's lateral (left-to-right) symmetry, as the body does not have the cylindrical shape that would qualify it for radial symmetry.
Penguins, 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.
Crustaceans, like 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.
Bats are mammals, and all mammals 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.
Humans, like all mammals and other 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.