- Multiple stimuli from different locations
- Repeated stimuli from a single synapse
- Inhibition of signals
- Concurrent release of different neurotransmitters
Category: COORDINATION & CONTROL NERVOUS & CHEMICAL COORDINATION
- Single stimulus from multiple synapses
- Repeated stimuli from a single synapse
- Integration of only inhibitory signals
- Simultaneous stimulation of antagonist muscles
- It can vary in amplitude.
- It is all-or-none.
- It decreases in strength over distance.
- It is always inhibitory.
- Afferent neuron
- Efferent neuron
- Interneuron
- Receptor cell
- Voluntary action
- Learned behavior
- Spinal reflex
- Cranial reflex
- Biceps femoris
- Quadriceps femoris
- Hamstrings
- Gastrocnemius
- The reflex would not occur
- The reflex would occur, but the person wouldn't feel it
- The reflex would become voluntary
- The reflex would increase in strength
- They indicate psychological state
- They reveal the integrity of specific neural pathways
- They predict future health problems
- They measure intelligence
- Afferent pathway
- Efferent pathway
- Receptor
- Integration center
- Initiate them
- Modulate or override them
- Replace them with voluntary actions
- Prevent their initiation
- Efferent pathway
- Afferent pathway
- Interneuron
- Effector
- The motor neuron would compensate
- The effector would still respond
- The reflex arc would be broken, preventing the reflex
- The brain would override the reflex
- Relax a muscle
- Prevent muscle damage from overstretching
- Initiate voluntary movement
- Inhibit antagonist muscles
- Stretch reflex
- Withdrawal reflex
- Deep tendon reflex
- Tendon reflex (inhibitory)
- Only monosynaptic has an effector
- Polysynaptic involves interneurons
- Only polysynaptic is involuntary
- Monosynaptic is always learned
- To maintain balance when one limb withdraws
- To stretch a muscle
- To regulate pupil size
- To control blood pressure
- Pacinian corpuscle
- Meissner's corpuscle
- Muscle spindle
- Golgi tendon organ
- Learned and conscious
- Voluntary and unpredictable
- Fast and involuntary
- Slow and adaptable
- Somatic reflex
- Spinal reflex
- Autonomic reflex
- Stretch reflex
