A starfish
Radially symmetrical. This means that the animal's body can be divided into equal halves in multiple planes passing through the central point. Examples include starfish and jellyfish.
porifera & echinodermata
Radial symmetry is advantageous for organisms in water because it allows them to capture food and detect predators from all directions. This type of symmetry is less practical on land where there is more need for mobility and directional movement. Land-dwelling animals have evolved bilateral symmetry to facilitate efficient movement in a single direction.
Jellyfish are a group of animals that lack a defined head or tail. Their body structure is radially symmetrical, with their mouth positioned in the center of their body. Their bodies are composed of a bell-like structure with tentacles hanging down.
A sea wasp, also known as a box jellyfish, exhibits radial symmetry. This means that its body parts are arranged symmetrically around a central axis, allowing it to detect and respond to stimuli from all directions in the water.
A Starfish
It is true.
True. The majority of radially symmetric animals, such as jellyfish and sea anemones, are aquatic, as their body design is well-suited for movement and feeding in water environments.
Most annelids are essentially tubes so they are radially symmetric.
Radially symmetrical. This means that the animal's body can be divided into equal halves in multiple planes passing through the central point. Examples include starfish and jellyfish.
triploblastic organisms :1-Acoleomates: with no cavity, and three cell layers.2-coleomates : with cavity, and surrounding with ( mesoderms )3-pseudocoleomates : with cavity filled with fluid, and lined with ( mesoderms )
S. C. R. Dennis has written: 'On the solution of the Navier-Stokes equations for a type of steady radially-symmetric viscous flow'
For a cylindrically symmetric charge distribution, the electric field inside the cylinder is also cylindrically symmetric. This means that the electric field points radially outwards or inwards along the axis of the cylinder with the magnitude dependent on the charge distribution. The electric field can be calculated using Gauss's law and applying symmetry arguments to simplify the problem.
Brain corals are hemispherical or spherical in shape resembling a brain. They must me radially symmetrical organism.
Cnidaria (Hydra, jellyfish, sea anemones, corals, etc.), generally have radial symmetry, although not all sea anemones or corals do. Echinodermata (sea stars, sea urchins, crinoids, sea cucumbers, etc.) are radially symmetrical as adults, but not as larvae.
Yes, tube sponges are radially symmetrical, meaning they are symmetric around a central axis. This symmetry allows them to filter water efficiently and capture food particles as they flow through their bodies.
Tangential.