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Why are action potentials said to be all or none where as epsps and ipsps are described graded?
Action potentials are all-or-none responses because they will only occur if the stimulus reaches a certain threshold level. Once this threshold is met, the action potential will fire at its maximum strength. In contrast, EPSPs and IPSPs are graded because their amplitude can vary depending on the strength of their respective stimuli.
Strong stimuli cause the amplitude of action potentials generated to increase?
Yes. ....Up to a point. There is a threshold the stimulus must surpass before creating a CAP (compound action potential). Anything below this threshold is called subthreshold. Once the stimulus is strong enough cause a CAP it is a stimulus threshold. At this point the CAP will continue to increase as the intensity of the stimulus increases (now termed suprathreshold) until a maximal stimulus causes a maximum response. Any stimulus stronger than the maximal stimulus is called a supramaximal and does not result in any larger a CAP than the maximum response caused by the maximal stimulus. source: http://www.unmc.edu/physiology/Mann/mann12.html
What cells have the ability to respond to stimuli by generating signals such as action potentials?
Nerve cells or neurons have the ability to respond to stimuli by generating signals such as action potentials. These signals travel along the nerve cells to communicate information within the nervous system.
What type of tissues produce action potentials?
Excitable tissues, such as nerve and muscle tissues, produce action potentials. These tissues have specialized cells that are capable of generating and transmitting electrical signals in response to stimuli.
Local potentials that vary in magnitude according to the strength of the stimulus?
Graded potentials are local potentials that vary in magnitude according to the strength of the stimulus. They can either be depolarizing or hyperpolarizing and play a role in generating action potentials in neurons. Graded potentials are responsible for the integration of multiple signals in the nervous system.
Do sensory receptors fire action potentials in response to stimuli?
Yes, sensory receptors do fire action potentials in response to stimuli.
Would increasing frequency of stimulation to trigger zone change number of action potentials?
Yes, increasing the frequency of stimulation can increase the number of action potentials generated in the neuron. This is known as frequency-dependent facilitation, where rapid succession of stimuli can enhance the excitability of the neuron and lead to more action potentials being fired.
Why are action potentials said to be all or none where as epsps and ipsps are described graded?
Action potentials are all-or-none responses because they will only occur if the stimulus reaches a certain threshold level. Once this threshold is met, the action potential will fire at its maximum strength. In contrast, EPSPs and IPSPs are graded because their amplitude can vary depending on the strength of their respective stimuli.
Receptors provide information about the intensity of a stimulus through?
Receptors provide information about the intensity of a stimulus through the frequency of action potentials they generate. Higher intensity stimuli result in higher frequency of action potentials being sent to the brain, signaling a stronger stimulus. This frequency coding allows the brain to interpret the intensity of stimuli.
Strong stimuli cause the amplitude of action potentials generated to increase?
Yes. ....Up to a point. There is a threshold the stimulus must surpass before creating a CAP (compound action potential). Anything below this threshold is called subthreshold. Once the stimulus is strong enough cause a CAP it is a stimulus threshold. At this point the CAP will continue to increase as the intensity of the stimulus increases (now termed suprathreshold) until a maximal stimulus causes a maximum response. Any stimulus stronger than the maximal stimulus is called a supramaximal and does not result in any larger a CAP than the maximum response caused by the maximal stimulus. source: http://www.unmc.edu/physiology/Mann/mann12.html
Does a large stimulus produce a higher amplitude in a action poteintial?
No, the amplitude of an action potential is constant and does not vary with the strength of the stimulus. Instead, the frequency of action potentials fired by a neuron can increase with a stronger stimulus.
What cells have the ability to respond to stimuli by generating signals such as action potentials?
Nerve cells or neurons have the ability to respond to stimuli by generating signals such as action potentials. These signals travel along the nerve cells to communicate information within the nervous system.
What type of tissues produce action potentials?
Excitable tissues, such as nerve and muscle tissues, produce action potentials. These tissues have specialized cells that are capable of generating and transmitting electrical signals in response to stimuli.
Local potentials that vary in magnitude according to the strength of the stimulus?
Graded potentials are local potentials that vary in magnitude according to the strength of the stimulus. They can either be depolarizing or hyperpolarizing and play a role in generating action potentials in neurons. Graded potentials are responsible for the integration of multiple signals in the nervous system.
What does the central nervous system use to determine the strength of a stimulus?
frequncy of action poteinals
How do action potentials relay intensities of information?
Action potentials relay intensities of information through a process called frequency coding. The higher the frequency of action potentials, the stronger the stimulus intensity. This allows for a wide range of intensities to be communicated by varying the firing rate of action potentials.
Do action potentials become weaker with distance?
No, action potentials do not become weaker with distance. They maintain their strength as they propagate along the length of the neuron due to the regenerative nature of the process. This ensures that the signal can travel long distances without weakening.
