* It conducts electric current * it has axons, dendrites, and some also have myelinated fiber. None of the other cells have these parts. * It does not go through cell division.(Meaning if you lose it, you can't get it back) * Sends signal directly to where it is needed.
Neurons release neurotransmitters, not neuroglia. Neuroglia, also known as glial cells, primarily support and protect neurons in various ways, but they do not release neurotransmitters like neurons do.
No, neurons come in various shapes and sizes depending on their function. There are different types of neurons, such as sensory neurons, motor neurons, and interneurons, each with unique structures specialized for their roles in transmitting information throughout the body.
No, not all neurons look alike. Neurons vary in shape, size, and function, reflecting their specialized roles in the nervous system. For example, motor neurons have long axons to transmit signals to muscles, while sensory neurons have unique structures to detect stimuli. This diversity in morphology is essential for the complex functioning of neural networks.
Neurons possess specialized structures called dendrites, which are tree-like extensions that receive signals from other neurons. These structures increase the surface area available for synaptic connections, allowing neurons to integrate and process information effectively. Additionally, the axon, another unique structure, transmits electrical impulses away from the cell body to communicate with other neurons or target cells, thus playing a crucial role in the transmission of signals within the nervous system.
Animal cells specialized for conducting electrochemical impulses are known as neurons. Neurons have unique structures such as dendrites, axons, and synapses that allow for the transmission of electrical signals within the nervous system.
No, lysosomes are not unique to neurons. They are found in many types of animal cells.
Neurons release neurotransmitters, not neuroglia. Neuroglia, also known as glial cells, primarily support and protect neurons in various ways, but they do not release neurotransmitters like neurons do.
There are NO different ways. Unique is UNIQUE !
No, neurons come in various shapes and sizes depending on their function. There are different types of neurons, such as sensory neurons, motor neurons, and interneurons, each with unique structures specialized for their roles in transmitting information throughout the body.
The mind is composed of neurons (nerve cells) in the brain. There are billions of neurons in a cubic inch of brain matter. These neurons can form connections with any number of other neurons in trillions of different ways. That is complex, so the mind is complex.
Nissl bodies
The unique structure of a neuron is optimized to allow it to transfer information intracellularly from one part of the cell to another and intercellularly between cells. The three structural elements unique to neurons are the axon, which is used for intracellular information transfer, the dendrite, which is the site often used to receive information from other neurons, and the synapse, which allow them to transmit signals to other neurons in the organism.[2] Neurons also contain a cell body or soma which contains the cell nucleus and other organelles which are required for normal cell functioning.
Animal cells specialized for conducting electrochemical impulses are known as neurons. Neurons have unique structures such as dendrites, axons, and synapses that allow for the transmission of electrical signals within the nervous system.
Neurons are shaped like long thin cells with a cell body, dendrites that receive signals, and an axon that transmits signals to other neurons. They have a unique branching structure that allows them to communicate with other neurons in the nervous system.
It is advantageous for neurons not to divide and replace themselves as adults because their unique structure and connections are essential for memory and learning. If neurons were to constantly divide and replace themselves, it could disrupt these connections and impair cognitive function.
Most neurons are unique from other cells because they have multiple dendrites, which are branch-like structures that receive signals from other neurons. This allows neurons to receive and process information from multiple sources, making them specialized for communication in the nervous system.
Neurons can react to stimuli through electrical signaling, where they generate action potentials to transmit information along their length. They can also respond to chemical signals by releasing neurotransmitters at synapses to communicate with other neurons or target cells.