I'm wasting my time writing this so do me a favor and read. You'll be smarter. You don't want to elevate your levels of self-esteem in order to signal to your internal environment that you are at a greater degree of unity with the external environment? Then impress the ladies.
The nervous system is composed of the Central Nervous System (CNS) and the Peripheral Nervous System (CNS). The CNS is composed of the brain and the spinal cord. The PMS is all other neurons. There are three types of neural cells Somatic, Autonomic and (forgot). Somatic control the skeletal muscles, and the voluntary muscles. Autonomic control the non-voluntary msucles such as smooth muscles and cardio muscles. The nerve cell is composed of dendrites, a cell body and an axon. The dendrite is the receiving end of the neuron. The Axon terminal, which is the end of an Axon, is the signaling end. Neural cells communicate by releasing neurotransmitters from their synaptic bulbs, which are located on the ends of the terminal axons. Neurotransmitters consist of amino acids, such as Acetyl Choline, which is used in skeletal muscle contraction.
Neural cells, as well as all cells in the body, have a negative charge that surrounds the cell's membrane. This inner negative charge is known as the Resting Membrane Potential (RMP). At this state, the cell is polarized. Neural cells have graded potential run through. Graded potentials travel only a short range, as they never reach the axon, from the dendrite to the cell body. If the net graded potentials depolarize the neural cells RMP by about 25-30 mV, then the graded potential turns into an Action potential. Mechanically speaking, an action potential is when voltage gated sodium channels, which dot the axon, open , and nearby sodium ions quickly rush into the axon. During this time, the entry of sodium cations makes the cell membrane become more positive, thus further pushing the AP down the axon. Simultaneously, potassium voltage gated ion channels open and potassium cations are released from inside the cell to decrease (make it more negative) the cell membrane potential a bit. As the AP reached the synaptic bulb at the end of the axon, calcium channels open up and Calcium ions are taken in to further make the membrane potential positive, and thus having the last final push that makes the neural cell release the neurotransmitter into the synaptic cleft. And thus the neurotransmitter travels to another neuron.
And thus a chemical is transformed to an electrical potential and back to a chemical.
The nervous system is composed of the Central Nervous System (CNS) and the Peripheral Nervous System (CNS). The CNS is composed of the brain and the spinal cord. The PMS is all other neurons. There are three types of neural cells Somatic, Autonomic and (forgot). Somatic control the skeletal muscles, and the voluntary muscles. Autonomic control the non-voluntary msucles such as smooth muscles and cardio muscles. The nerve cell is composed of dendrites, a cell body and an axon. The dendrite is the receiving end of the neuron. The Axon terminal, which is the end of an Axon, is the signaling end. Neural cells communicate by releasing neurotransmitters from their synaptic bulbs, which are located on the ends of the terminal axons. Neurotransmitters consist of amino acids, such as Acetyl Choline, which is used in skeletal muscle contraction.
Neural cells, as well as all cells in the body, have a negative charge that surrounds the cell's membrane. This inner negative charge is known as the Resting Membrane Potential (RMP). At this state, the cell is polarized. Neural cells have graded potential run through. Graded potentials travel only a short range, as they never reach the axon, from the dendrite to the cell body. If the net graded potentials depolarize the neural cells RMP by about 25-30 mV, then the graded potential turns into an Action potential. Mechanically speaking, an action potential is when voltage gated sodium channels, which dot the axon, open , and nearby sodium ions quickly rush into the axon. During this time, the entry of sodium cations makes the cell membrane become more positive, thus further pushing the AP down the axon. Simultaneously, potassium voltage gated ion channels open and potassium cations are released from inside the cell to decrease (make it more negative) the cell membrane potential a bit. As the AP reached the synaptic bulb at the end of the axon, calcium channels open up and Calcium ions are taken in to further make the membrane potential positive, and thus having the last final push that makes the neural cell release the neurotransmitter into the synaptic cleft. And thus the neurotransmitter travels to another neuron.
And thus a chemical is transformed to an electrical potential and back to a chemical.