Calcium is not required for
Answers
Answer:
conduction of nerve impulse
Answer:
Calcium is not required for-because it is well known that it is necessary for the growth of bones and teeth, the contraction of muscles, and the flow of blood, but is not necessary for the conduction of nerve impulses.
Explanation:
Calcium is required by your body to create and maintain healthy bones. Calcium is also necessary for the healthy operation of your heart, muscles, and nerves. According to several research, calcium and vitamin D may also help prevent cancer, diabetes, and high blood pressure in addition to supporting bone health.
nerve impulses.
- A synapse is when an axon terminal connects to another cell. This is where a nerve impulse is transferred to another cell.
- It is the method a nerve cell uses to talk to another cell. This signal carries a message telling an effector to do something along the axon of the nerve cell. For instance, at a neuromuscular junction, a nerve impulse causes a muscle cell to contract by traveling along the axon of a nerve cell.
- This is where a nerve impulse is transferred to another cell. Presynaptic cells are responsible for sending nerve impulses, whereas postsynaptic cells are responsible for receiving them. Some synapses connect neurons directly electrically and are only electrical in nature.
- Signals sent via nerve fibers are called nerve impulses. The spinal cord and brain receive information from these signals about the body and the outside environment. They coordinate the movement of your muscles by communicating with other CNS centers.
- When the stimulation is intense, a nerve impulse is produced. This stimulation induces electrical and chemical changes in the cell. As was already explained, the cell membrane is surrounded by various ions on both sides. Positively charged sodium ions are more prevalent and have a larger quantity on the outside side.
The term "action potential" also refers to the nerve impulse. It speaks about the electrical signal that an activated neuron sends out. The synapses, or connections between the cells, then send this signal.