All AP Biology Resources
Example Questions
Example Question #1 : Understanding The Central And Peripheral Divisions
Nervous tissue contains multiple support cells for neurons. These support cells are collectively referred to as neuroglia.
Which of the following is the support cell that myelinates axons in the peripheral nervous system?
Satellite cells
Oligodendrocytes
Schwann cells
Astrocytes
Schwann cells
Schwann cells are responsible for the myelination of axons in the peripheral nervous system.
Oligodendrocytes also myelinate axons, but they are found in the central nervous system. Astrocytes and satellite cells help support neurons, but do not contribute myelin to axons.
Example Question #2 : Understanding The Central And Peripheral Divisions
Which of the following structures is found only in the peripheral nervous system?
Oligodendrocytes
White matter
Gray matter
Free nerve ending
Interneurons
Free nerve ending
The central nervous system houses the brain and spinal cord only. The peripheral nervous system refers to all other nervous structures in the body.
Free nerve endings are usually located just under the skin, and respond to pain and large changes in temperature, making them part of the peripheral nervous system.
Oligodendrocytes, white matter, and gray matter are only found in the central nervous system. Interneurons are most commonly found in the spinal cord, but can be found in either the peripheral or central nervous system.
Example Question #3 : Understanding The Central And Peripheral Divisions
Which of the following lists only structures that are part of the central nervous system?
Spinal cord, cerebral cortex, cranial nerves
Cerebellum, hippocampus, spinal cord
Left and right hemispheres of the brain, spinal cord, adrenal cortex
Cranial nerves, parathyroid glands, cerebellum
Thalamus, hypothalamus, thymus
Cerebellum, hippocampus, spinal cord
The components of the central nervous system are the brain and the spinal cord only. The remaining structures of the nervous system belong to the peripheral nervous system. The hemispheres of the brain and the spinal cord are part of the central nervous system. The hippocampus, cerebellum, hypothalamus, thalamus, and cerebral cortex are structures within the brain. The hippocampus is responsible for memory storage and the cerebellum is associated with balance and coordination. The cerebrum is responsible for processing information and higher thought. These structures are also part of the central nervous system.
The cranial nerves attach directly to the spinal cord, but branch out into the periphery. They are not considered part of the central nervous system. The adrenal glands and parathyroid glands are part of the endocrine system. Though they can respond to stimulation from the nervous system, they cannot be classified as part of the peripheral or central nervous system.
The thymus is an endrocrine gland located above the heart and is not part of the nervous system.
Example Question #4 : Understanding The Central And Peripheral Divisions
Which of these is not found in the central nervous system?
All of these are found in the central nervous system
Microglia
Cerebellum
Thalamus
Pineal gland
Pineal gland
Though the pineal gland is found within the skull, it is not composed of nervous tissue and is not considered part of the central nervous system. Instead, it is an endocrine organ that interacts with the nervous tissue of the brain that surrounds it.
The thalamus and cerebellum are both structures of the brain, and are thus part of the central nervous system. Microglia function as macrophages in the central nervous system to prevent infection within the blood-brain barrier.
Example Question #5 : Understanding The Central And Peripheral Divisions
The parasympathetic nervous system is a subdivision of which branch of the nervous system?
The peripheral somatic nervous system
The spinal cord
The peripheral autonomic nervous system
The central nervous system
The peripheral autonomic nervous system
There are two major criteria that can be used to define nervous system categorizations. The first is location in the body. The central nervous system consists only of the brain and spinal cord, while the peripheral nervous system extends throughout the rest of the body. The central nervous system is enclosed by the blood-brain barrier, separating it from the rest of the body. The second classifier is mechanism of control. Some nervous pathways can be controlled voluntarily (somatic), while others are involuntary (autonomic).
The sympathetic and parasympathetic divisions are both peripheral autonomic pathways.
Example Question #6 : Understanding The Central And Peripheral Divisions
The brain and spinal cord belong to what division of the nervous system?
Central nervous system
Sympathetic nervous system
Peripheral nervous system
Autonomic nervous system
Somatic nervous system
Central nervous system
Example Question #1 : Divisions Of The Nervous System
Somatic motor neurons are found in which section of the spinal cord?
Dorsal root ganglion
Dorsal horn
Ventral horn
Lateral horn
Ventral horn
The nervous system has two principle divisions for function and two principle divisions for structure. Structurally, there are the central and peripheral nervous system divisions. Functionally, there are the somatic and autonomic divisions.
The spinal cord is found in the central nervous system, and is structurally divided into afferent sensory neurons and efferent motor neurons. Sensory neuron cell bodies are found in the dorsal root ganglion, while somatic motor neurons are found in the ventral horn of the spinal cord.
Example Question #2 : Understanding The Autonomic And Somatic Divisions
Which division of the nervous system only innervates skeletal muscle?
Peripheral nervous system
Parasympathetic nervous system
Sympathetic nervous system
Somatic nervous system
Somatic nervous system
The nervous system has two principle divisions for function and two principle divisions for structure. Structurally, there are the central and peripheral nervous system divisions. Functionally, there are the somatic and autonomic divisions.
The somatic nervous system is responsible for voluntary actions, namely the innervation of skeletal muscle. The autonomic nervous system is responsible for all involuntary actions, including smooth muscle contraction, glandular stimulation, and other functions.
The peripheral nervous system carries both somatic and autonomic signals, innervating the entire periphery (not just skeletal muscle). The sympathetic and parasympathetic divisions of the nervous system are both autonomic. Though they innervate some skeletal muscles, they also play keys roles in other bodily functions, such as heart rate and blood pressure regulation.
The somatic nervous system is the only division to only innervate skeletal muscle.
Example Question #3 : Understanding The Autonomic And Somatic Divisions
A sensory/receptor cell in the somatic nervous system would likely come from an __________, while a sensory/receptor cell in the autonomic nervous system would likely come from a(n) __________.
internal receptor such as a chemoreceptor, baroreceptor, or thermoreceptor . . . external receptor such as an eye, ear, or nose
eye . . . nose
internal receptor such as an eye, ear, or nose . . . external receptor such as a chemoreceptor, baroreceptor, or thermoreceptor
external receptor such as an eye, ear, or nose . . . internal receptor such as a chemoreceptor, baroreceptor, or thermoreceptor
external receptor such as an eye, ear, or nose . . . internal receptor such as a chemoreceptor, baroreceptor, or thermoreceptor
The somatic nervous system is responsible for chiefly voluntary, conscious behavior, such as choosing a reaction to external stimuli sensed by one of the traditional five senses. The autonomic nervous system is responsible for involuntary bodily function, and can respond to sensations such as gas concentrations in the blood, changes in blood pressure, and slight deviations in body temperature, among many others.
Example Question #2 : Divisions Of The Nervous System
The __________ nervous system will __________ the body's heart rate by releasing acetylcholine.
parasympathetic . . . increase
parasympathetic . . . reduce
sympathetic . . . increase
sympathetic . . . reduce
parasympathetic . . . reduce
The parasympathetic nervous system is responsible for the "rest and digest" responses. The sympathetic nervous system, on the other hand, performs the "fight or flight" responses. This question, however, really hinges on knowing the effect of acetylcholine on cardiac muscle. The release of acetylcholine slows the heart rate.
Parasympathetic neurons will only use acetylcholine. Sympathetic neurons signal each other with acetylcholine (preganglionic neurons), but elicit their effects by releasing norepinephrine on their target cells (postganglionic neurons). The effect of norepinephrine on the heart would increase heart rate.