It has bi-lateral symmetry, although it's so simple a creature you could almost argue for radial symmetry.
A sandworm has bilateral symmetry, which means it has one line of symmetry that divides it into two equal halves. This line of symmetry runs from its head to its tail.
It is a line of symmetry.
The three types of symmetry are bilateral symmetry (division into two mirror images), radial symmetry (division into multiple symmetric parts around a central axis), and translational symmetry (repeating patterns along a straight line).
Symmetry in biology is the balanced distribution of duplicate body parts or shapes. The body plans of most multicellular organisms exhibit some form of symmetry, either radial symmetry or bilateral symmetry or "spherical symmetry". A small minority exhibit no symmetry (are asymmetric).
No, echinoderms do not have bilateral symmetry. They have radial symmetry, which means their body parts are arranged around a central axis.
Is a hookworm radial
Bilateral symmetry.
is a hookworm a bilateral or radial
hookworms have bilateral symmetry
z does not have a line of symmetry. z does not have a line of symmetry. z does not have a line of symmetry. z does not have a line of symmetry.
A symmetrical shape is said to have line symmetry. A shape that has line symmetry can have one or more lines of symmetry
Line symmetry.
what makes a line of symmetry is that it has to be shared equel.That is what makes a line of symmetry.
The letters H and Z have both line symmetry and rotational symmetry
Lower case A doesn't have a line of symmetry. Upper case A has a vertical line of symmetry.
The letters S and N have point symmetry but not line symmetry.
It has line symmetry (straight down the center) but not rotational symmetry.