By the axons and the dendrites that help the transmition of electric signals all around the nerve system.
Different cells in a multicellular organism have specialized functions that help the organism to survive and function efficiently. Each type of cell is uniquely adapted to perform specific tasks, such as nerve cells for signaling, muscle cells for movement, and blood cells for transporting oxygen. This division of labor allows the organism to carry out complex functions necessary for its overall health and well-being.
Both nerve cells and red blood cells are specialized cells in the body with specific functions. Nerve cells transmit electrical impulses for communication in the nervous system, while red blood cells transport oxygen to tissues. Both types of cells lack a nucleus, allowing for more space to carry out their respective functions efficiently.
Cells that are specialized for specific functions, such as nerve cells and muscle cells, would most prefer not to have cells undergoing division.
Nerve cells, or neurons, cannot divide because they are in a state of terminal differentiation. This means they have permanently exited the cell cycle and lost the ability to divide. Nerve cells have complex structures and functions that would be disrupted if they were to try to divide.
Egg cells are adapted to their function of fertilization by having a large size to store nutrients for the developing embryo, a protective outer layer to prevent multiple sperm from fertilizing it, and containing organelles such as mitochondria to provide energy for cellular activities.
Nerve cell
Cells that are adapted to perform specific functions are referred to as "specialized cells." These cells exhibit unique structures and characteristics that enable them to effectively carry out particular roles in an organism, such as muscle cells for contraction, nerve cells for signal transmission, and epithelial cells for protection and absorption. This capability is known as "cell specialization" or "cell differentiation."
Nerve cells in the eyes, primarily photoreceptors like rods and cones, are specialized for detecting light and converting it into electrical signals for visual processing. In contrast, nerve cells in the ears, such as hair cells in the cochlea, are designed to respond to sound vibrations and transduce them into neural signals for auditory processing. Both types of nerve cells are adapted to their specific sensory functions, with distinct structures and signaling mechanisms to facilitate the perception of visual and auditory stimuli.
they transfer nerve impulse to the brain which allows brain to function
They have adapted to their job by developing a cell membrane to keep unwanted waste
Red blood cells are adapted for oxygen transport due to their concave shape and lack of a nucleus, allowing for more space to carry oxygen. Nerve cells are adapted for rapid transmission of electrical impulses with their long axons. Muscle cells are adapted for contraction with abundant mitochondria for energy production.
Long extensions called dendrites that respond to neurotransmitters, long extensions called axons which may be wrapped in myelin sheaths and which secrete neurotransmitters, and the ability to generate a resting and an action potential.
Different cells in a multicellular organism have specialized functions that help the organism to survive and function efficiently. Each type of cell is uniquely adapted to perform specific tasks, such as nerve cells for signaling, muscle cells for movement, and blood cells for transporting oxygen. This division of labor allows the organism to carry out complex functions necessary for its overall health and well-being.
Groups of nerve cells that control the nervous system are called nuclei in the central nervous system and ganglia in the peripheral nervous system. These clusters of nerve cells work together to regulate various functions such as movement, sensation, and organ functions.
Its duty is conduct impulses.It helps in maintaining body functions.
No - they have very different shapes in order to perform their specific functions. Nerve cells are long with branched 'dendrites' at the end. There are many different blood cells, one of which - red blood cells - are almost circular with an indent in the middle.
NO IDEA! i think its cus its long or something : (