afferent neurons
afferent neurons
When arterial blood pressure rises, it can cause A: vagal tone decrease B: sympathetic tone increase C: aortic nerve afferent impulse reduce D: sinus nerve afferent impulse increase
When arterial blood pressure rises, it can cause A: vagal tone decrease B: sympathetic tone increase C: aortic nerve afferent impulse reduce D: sinus nerve afferent impulse increase
Which one is necessary for the activity of respiratory center? A: afferent signals from the pulmonary stretch receptor. B: afferent signals from the proprioceptors in the respiratory muscle. C: certain level of PCO2. D: certain level of hypoxia. E: certai level of H+
Which one is necessary for the activity of respiratory center? A: afferent signals from the pulmonary stretch receptor. B: afferent signals from the proprioceptors in the respiratory muscle. C: certain level of PCO2. D: certain level of hypoxia. E: certai level of H+
afferent neurons( ). A: 传入神经元 B: 传出神经元 C: 传入神经递质 D: 传出神经递质
afferent neurons( ). A: 传入神经元 B: 传出神经元 C: 传入神经递质 D: 传出神经递质
These types of<br/>neurons originate and terminate in the brain or spinal cord () A: Efferent neurons B: Interneurons C: Motor neurons D: Sensory neurons E: Afferent neurons
These types of<br/>neurons originate and terminate in the brain or spinal cord () A: Efferent neurons B: Interneurons C: Motor neurons D: Sensory neurons E: Afferent neurons
These type of<br/>neurons originate and terminate in the brain or spinal cord () A: Efferent neurons B: Interneurons C: Motor neurons D: Sensory neurons E: Afferent neurons
These type of<br/>neurons originate and terminate in the brain or spinal cord () A: Efferent neurons B: Interneurons C: Motor neurons D: Sensory neurons E: Afferent neurons
Drops of blood pressure can lead to renin release, which is mainly because A: stretch receptor of afferent arteriole B: aortic arch baroreceptor C: osmoreceptor in hypothalamus D: cardiopulmonary receptor
Drops of blood pressure can lead to renin release, which is mainly because A: stretch receptor of afferent arteriole B: aortic arch baroreceptor C: osmoreceptor in hypothalamus D: cardiopulmonary receptor
In the nerve reflex, the latency from the stimulation to the response is mainly dependent on A: the number of synapses in the central nervous system B: the action potential conduction velocity at the afferent and efferent nerve fiber C: the strength and property of stimulation D: the sensitivity of the sensory receptors
In the nerve reflex, the latency from the stimulation to the response is mainly dependent on A: the number of synapses in the central nervous system B: the action potential conduction velocity at the afferent and efferent nerve fiber C: the strength and property of stimulation D: the sensitivity of the sensory receptors
In the nerve reflex, the latency from the stimulation to the response is mainly dependent on A: the action potential conduction velocity at the afferent and efferent nerve fiber B: the strength and property of stimulation. C: the number of synapses in the central nervous system. D: the sensitivity of the sensory receptors. E: the sensitivity of the effector.
In the nerve reflex, the latency from the stimulation to the response is mainly dependent on A: the action potential conduction velocity at the afferent and efferent nerve fiber B: the strength and property of stimulation. C: the number of synapses in the central nervous system. D: the sensitivity of the sensory receptors. E: the sensitivity of the effector.
Which description is correct about the deep tendon organ? A: parallel to the extrafugal fiber B: is a sensory receptor for muscle length C: protect the muscle from injury during contraction. D: in series with intrafusal fiber E: sensory signal is transmitted by II afferent nerve fiber
Which description is correct about the deep tendon organ? A: parallel to the extrafugal fiber B: is a sensory receptor for muscle length C: protect the muscle from injury during contraction. D: in series with intrafusal fiber E: sensory signal is transmitted by II afferent nerve fiber