Yes, many of the vacuoles in nerve cells transport neurotransmitters from ribosomes in the body of the cell down the length of the axon to the terminal where the vacuoles will release those neurotransmitters into the synaptic cleft when the cell fires.
Yes and whoevers asking is dumber than a sixth grader.
it allows the electrical impulse to travel more easily :)
Yes, they would have to as well, since they produce a lot of protein from the DNA contained inside the nucleus.
Yes. All cells have a membrane.
Nerve cells do have organelles
yes, all cells do
Yes!
Yes it does
excitablity
PHOSPHATIDYLCHOLINE
In non-myelinated axons, the nerve impulse is going to be produced when the action potential accross a membrane makes a wave of depolarization followed by a wave of repolarization. With the absence of the myelin, the impulse is transmitted continuously throughout the membrane. In a non-myelinated nerve, once an end of the cell, the dendrite, is depolarized, the depolarization a.k.a., the action potential, moves along the nerve membrane, and the area of membrane immediately behind the depolarized section becomes repolarized.
Nerve cells are a part of the nervous system. There are nerve cells all around the body. Without nerve cells your body would not function the way it does.
A group of nerve cells all together is called a ganglion. These nerve cells are linked by synapses and attach to a nerve fiber.
Auditory nerve
Nerve cells and muscle cells are excitable. Their cell membrane can produce electrochemical impulses and conduct them along the membrane. In muscle cells, this electric phenomenon is also associated with the contraction of the cell. Thank you, regards (me).
excitablity
PHOSPHATIDYLCHOLINE
Cell membrane White blood cells Red blood cella Nerve cells Vacuoles Cytoplasm
Sodium-potassium pump
Nerve cells are different from other cells. In other cells they have a cell wall cell membrane nucleus lisozomes etc. but nerve cells dont have the information nor the ability to heal as well as normal cells do. it all depends on the extent of the damage
the out hair cells (OHC)push against the tectorial membrane in response to efferent innervation from the CNS the seventh cranial nerve it's the inner hair cells (IHC) that provide the sense of hearing afferent innervation to the CNS the eighth cranial nerve
electrical wave conducted along the nerve generated by the voltage difference across the cell membrane of the nerve cells.
Neurons have a resting membrane potential of approximately -70mV. Muscle cells have a resting membrane potential of approximately -90mV.
Axon, Nerve Ending (Presynaptic Terminals), Dendrites, Neuronal Membrane*, and the Cell Body. The parts within the cell body: Nucleus Golgi Apparatus Polyribosomes Neuronal membrane Mitochondrium Endoplasmic Reticulums (Smooth and Rough)
They would be destroyed as their function would be destroyed.