Distinguish between: - afferent neurons and efferent neurons
- impulse conduction in a myelinated nerve fiber and unmyelinated nerve fiber
- cranial nerves and spinal nerves.
- afferent neurons and efferent neurons
- impulse conduction in a myelinated nerve fiber and unmyelinated nerve fiber
- cranial nerves and spinal nerves.
Solution and Explanation
a. afferent neurons and efferent neurons
| Afferent Neurons | Efferent Neurons |
|---|---|
| They transport sensory signals to the central nervous system from receptors. | They transport motor impulses from the brain to the muscles and other effector organs. |
| They can be found in the sense organs. | The spinal cord and the brain both contain them. |
| These neurons are sensory ones. | These are motor neurons. |
b. impulse conduction in a myelinated nerve fiber and unmyelinated nerve fiber
| Impulse Conduction in a Myelinated Nerve Fiber | Impulse Conduction in Non-myelinated Nerve Fiber |
|---|---|
| The path of an impulse is node to node. | The impulse traverses the complete length of the nerve fiber. |
| Conduction speed is 50 times faster than in non-myelinated nerve fibers. | The rate of conduction is slower. |
| Less energy is used during impulse transmission. | More energy is used during impulse transmission. |
c. cranial nerves and spinal nerves
| Cranial Nerves | Spinal Nerves |
|---|---|
| The cranial nerves come in 12 pairs. | The spine has 31 pairs of nerves. |
| They originate in the brain and spread to other body parts | They start in the spinal cord and spread to other bodily regions. |
| They could be mixed, sensory, or motor. | They have a mixture of nerves. |
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Concepts Used:
Neural Control and Coordination
Neural System:
Neurons are the most specialised cells in the nervous system of all animals, and they are responsible for detecting, accepting, and conveying numerous types of motives. The neurological system of low-spinal animals like Hydra is incredibly simple, consisting of a network of neurons. When the brain of an insect comprises a vast number of ganglia and neural tissues, it is optimally structured.
Coordination System:
Coordination is the process by which two or more organs work together to accomplish each other's duties. Increased muscle activity increases the supply of oxygen and the demand for energy while we exercise. When we cease exercising, our nerves, heart, lungs, and kidneys all return to normal. As a result, all of the organs' functions are properly integrated in order to conduct the exercise and supply the appropriate conditions while exercising. Similarly, in the human body, the neurological and endocrine systems work together to coordinate all of the organ activities.