the axis through which a body rotate it is prependicular to plane of body
if body of an animal divides into 2 equal halves by means of 1 or 2 plane of division through its central axis then its biradial symmetry . ex: sea anemone
rotation
the moment of inertia of a body about a given axis is equal to the sum of its moment of inertia about a parallel axis passing through its centre of mass and the product of its mass and square of perpendicular distance between two axis Iz=Ix+Iy
Your head,neck,and hip.:)
The y-axis is the vertical axis on a graph.
Rotation is the circular motion of a body around a central axis.
The central axis of the foot goes through the talus.
radial symmetry
radial symmetry
A radial symmetry type repeats around the center of the organism, with body parts arranged around a central axis, like in jellyfish or sea anemones.
Central Powers. Axis was WW2.
radial symmetry which means that all the parts of the body are arranged around a central axis in such a way that any plane passing through the central axis divides the animal in halves that are almost mirror image of each other
A central axis is part of a computer system or other electronics. It is a freestanding box that holds data for these electronics.
A central axis is part of a computer system or other electronics. It is a freestanding box that holds data for these electronics.
The axial skeleton is composed of bones that provide support and protect the organs in the central axis of the body, including the skull, spine, and ribcage. It does not consist of bones that run through the literal center of the body, but rather those that form the central structure and framework.
The axis of the body refers to an imaginary line around which the body rotates or is organized. In anatomical terms, it typically includes the vertebral column (spine) as the central structure, providing support and alignment for the body. This axis plays a crucial role in maintaining balance, posture, and facilitating movement. It can also be understood in terms of different planes of motion, such as the sagittal, frontal, and transverse axes.
No, echinoderms do not have bilateral symmetry. They have radial symmetry, which means their body parts are arranged around a central axis.