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may be there are specific arrangement of sodium and potassium ion channels in neurons which is not found in any other cell andthis arrangement is necessary for action potential generation but i am ot sure what kind of arrangement is needed for action potential generation and what kind is presentr in neurons and other cells .
What else can I help you with?
Can subthreshold stimulation cause an action potential?
No, subthreshold stimulation is not sufficient to trigger an action potential. The membrane potential needs to reach a certain threshold level for an action potential to be generated. Subthreshold stimulation only produces graded potentials that do not reach the threshold for firing an action potential.
What happens when the section of the resting neuron is stimulated?
Irrespective of what the stimuli entails, the probability that the neuron will fire will be changed by its input. For instance, if the sum of all the inputs at a given time produce local membrane hyperpolarization, then there will a reduced probability that the neuron will fire an action potential. And vice versa. In other words, the action potential frequency is the only outcome that is possible. However, the value of this frequency can be anywhere from 0-20 cycles per second for most neurons.
Why are action potentials said to be all or none?
All or nothing response of an action potential (AP), refers simply to the fact that an AP will either occur, or not. There is no gradient, no half APs or double APs. The only option is AP, or no AP. Like in computer binary, the response is either 1 (an AP) or 0 (no AP). All the factors trying to induce (or inhibit) an action potential (i.e other action potentials, EPSPs and IPSPs) add up (summate) at the axon hillock, (aka the trigger zone). Here, if the stimulation is big enough an action potential will occur. If the stimulation is not big enough, no action potential occurs.
Dendrites conduct both graded and action potential?
Dendrites primarily conduct graded potentials, which are local changes in membrane potential. These graded potentials can accumulate and trigger an action potential in the axon hillock if they reach a certain threshold. Action potentials are then conducted along the axon.
Define the period of repolarization when only a strong stimulus will elicit an action potential?
The period of relative refractory period is the time after an action potential during which a strong stimulus is required to generate a new action potential. This is because the membrane potential is hyperpolarized, making it more difficult to reach the threshold for firing another action potential.
Can subthreshold stimulation cause an action potential?
No, subthreshold stimulation is not sufficient to trigger an action potential. The membrane potential needs to reach a certain threshold level for an action potential to be generated. Subthreshold stimulation only produces graded potentials that do not reach the threshold for firing an action potential.
When can a second nerve impulse cannot be generated?
The generation of a second action in some neurons can only happen after a refractory period, when the membrane potential has returned it's base level or even more negative. This is because some types of Na+ channels inactivate at a positive potential and then require a negative potential to reset. Other neurons have other types of channels and can fire multiple action potentials to a single depolarization.
The cells in the nervous system that receive and send neurotransmitter messages?
impulses travel to and from the central nervous system allowing the brain and spinal cord to control all your other body systems
What happens when the section of the resting neuron is stimulated?
Irrespective of what the stimuli entails, the probability that the neuron will fire will be changed by its input. For instance, if the sum of all the inputs at a given time produce local membrane hyperpolarization, then there will a reduced probability that the neuron will fire an action potential. And vice versa. In other words, the action potential frequency is the only outcome that is possible. However, the value of this frequency can be anywhere from 0-20 cycles per second for most neurons.
Absolute refractory period relative refractory period?
In absolute refractory period, none of channels are reconfigured, so that second active potential cannot be generated no matter how large the stimulus current is applied to the neuron. In contrast, in relative refractory period, some but not all of channels are reconfigured, another action potential can be generated but only by a greater stimulus current thatn that originally needed.
Why are action potentials said to be all or none?
All or nothing response of an action potential (AP), refers simply to the fact that an AP will either occur, or not. There is no gradient, no half APs or double APs. The only option is AP, or no AP. Like in computer binary, the response is either 1 (an AP) or 0 (no AP). All the factors trying to induce (or inhibit) an action potential (i.e other action potentials, EPSPs and IPSPs) add up (summate) at the axon hillock, (aka the trigger zone). Here, if the stimulation is big enough an action potential will occur. If the stimulation is not big enough, no action potential occurs.
Dendrites conduct both graded and action potential?
Dendrites primarily conduct graded potentials, which are local changes in membrane potential. These graded potentials can accumulate and trigger an action potential in the axon hillock if they reach a certain threshold. Action potentials are then conducted along the axon.
How does a threshold prevent a neuron from generating too many action potential?
A threshold in a neuron represents the critical level of depolarization needed to trigger an action potential. When the membrane potential reaches this threshold, voltage-gated sodium channels open, allowing an influx of sodium ions that leads to rapid depolarization. If the membrane potential does not reach this threshold, the neuron will not fire, thus preventing excessive or spontaneous action potentials. This mechanism ensures that action potentials are generated only in response to sufficient stimuli, maintaining proper signaling in the nervous system.
What is the volley principle?
The Volley Principle is an information encoding scheme used in human hearing. Nerve cells transmit information by generating brief electrical pulses called action potentials. Sound is encoded by producing an action potential for each cycle of the vibration, eg. 200Hz results in a neuron producing 200 action potentials per second. BUT, neurons can only produce action potentials around 300 to 500 Hz. The human ear overcomes this problem by allowing several nerve cells to take turns performing this single task. The volley principle was proposed to deal with this apparent anomaly between the behaviour of single neurons and groups of neurons.
Action potential will be propagated only after a sufficiently large resting membrane potential has been achieved in the direction of?
depolarization
What happens when you stimulate an axon in the middle?
When an axon is stimulated in the middle, an action potential is generated and travels in both directions along the axon. This is known as bidirectional conduction. The action potential is propagated away from the site of stimulation towards both the axon terminal and the cell body.
What ensures that one action potential in the neuron yields only one action potential in the skeletal muscle fibers of the stimulated motor unit and therefore only one contraction per fiber?
sarcoplasmic reticulum
