The cells within the nervous system can be broadly classed as either n❌ or g❌.
❌ are the main signalling cells and have specialised processes, called a❌ and d❌ for this purpose. They are functionally connected to one another by ❌. Signalling across synapses may be e❌ or c❌. The ❌ neuron will ultimately respond with a changed membrane potential called a ❌.
If the combined input of synaptic potentials is sufficient then the neuron will produce an ❌ which differs in a number of ways from the synaptic potential, not least because it is ❌ .
Although the ❌ of action potentials may vary, the speed of ❌ of action potentials is constant along the length of an axon and depends on a number of factors including whether or not it is ❌: myelinated axons conduct action potentials ❌ than unmyelinated axons.
❌ provide support and ❌ to the nervous system. They have ❌ duties, nourishing nervous tissue by regulating the supply of ❌, including oxygen, and also a ❌ role by mopping up debris and buffering ions in the extracellular fluid. They also provide ❌: ❌ in the CNS; ❌ in the PNS.
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postsynaptic
postsynaptic
synaptic potential
synaptic potential
action potential
action potential
‘all-or-nothing’
‘all-or-nothing’
‘housekeeping’
‘housekeeping’
oligodendrocytes
oligodendrocytes
Schwann cells
Schwann cells