chapter 5 : membrane potentials and action potentials

Réussis tes devoirs et examens dès maintenant avec Quizwiz!

true or false : diffusion of ions carries positive charges to the inside but leaves the nondiffusible negative anions on the outside , thus creating electronegativity on the inside.

false : charges to outside anions on inside

true or false: sodium channels can be over activated by a toxin called tetrodotoxin when it is applied to the outside of the cell membrane where the sodium activation gates are located

false : blocked

true or false :The membranes of almost all cells of the body have a chloride pump similar to the sodium pump, and chloride serves along with (or instead of) sodium in some cells to cause most of the action potential

false : calcium

true or false: the calcium ion concentration needs to fall only 50 percent below normal before spontaneous discharge occurs in some peripheral nerves. rarely this drop causes muscle "tetany"

false: often causing

true or false: not possible for the sodium channels to close again without first repolarizing the nerve fiber.

false: open again

true or false:a rapid inflow of sodium ions, causes a further rise in the membrane potential, thus closing voltage-gated sodium channels and allowing less streaming of sodium ions to the interior of the fiber. This process is a positive-feedback cycle that

false: opening more voltage gated channels and allows more streaming of sodium ions

true or false :any factor that causes sodium ions to begin to diffuse inward through the membrane in sufficient numbers can set off automatic regenerative closing of the sodium channels

false: opening of sodium channels

true or false :The large fibers are unmyelinated, and the small ones are myelinated

false: opposite

what can rhythmical discharges cause ( name all 3)

(1) the rhythmical beat of the heart, (2) rhythmical peristalsis of the intestines, and (3) such neuronal events as the rhythmical control of breathing.

true or false: sodium channels are often called slow channels

false: calcium slow sodium fast

true or false :The average nerve trunk contains about twice as many unmyelinated fibers as myelinated fibers

true

why is saltatory conduction function valuable ?

2 reason 1 : by causing the depolarization process to jump long intervals along the axis of the nerve fiber, this mechanism increases the velocity of nerve transmission in myelinated fibers as much as 5- to 50 2:conserves energy for the axon because only the nodes depolarize

what is saltatory conduction?

action potentials are conducted from node to node

where are calcium channels numerous in

cardiac and smooth muscle

true or false : An action potential will occur even if the initial rise in membrane potential is not great enough to create the positive feedback

false : An action potential will not occur until the initial rise in membrane potential is great enough to create the positive feedback

true or false : voltage-gated calcium channels-When the channels open in response to a stimulus that repolarizes the cell membrane, calcium ions flow to the interior of the cell.

false : depolarizes

true or false:depolarization process travels over the entire membrane even if conditions are not right. This principle is called the all-or-nothing principle

false : does not travel if all conditions are not right

true or false : During the resting state, the gate of the potassium channel is closed and potassium ions are prevented from passing through this channel to the interior

false : exterior

true or false: When the membrane potential rises from −90 millivolts toward zero, this voltage change causes a conformational opening of the potassium channel gate and allows decreased potassium diffusion outward through the channel

false : increased

true or false :The membrane of a Schwann cell first envelops the axon. The Schwann cell then rotates around the axon many times, laying down a single layer of Schwann cell membrane containing the lipid substance sphingomyelin

false : multiple layers

true or false : not really necessary, but still plays a role in causing both depolarization and repolarization of the nerve membrane during the action potential is the voltage-gated sodium channel.

false : necessary actor in causing both

true or false :Inside the axon are many positively charged ions that cannot go through the membrane channels

false : negatively

true or false: the closing (blocking) of the potassium channels, which close slowly and reach their full closed state only after the sodium channels have almost completely closed.

false : opening activation of potassium which open and reach full open state

true or false: sodium channels can be blocked by a toxin called tetrodotoxin when it is applied to the inside of the cell membrane where the sodium activation gates are located

false : outside of the cell membrane

true or false : calcium channels are often called fast channels

false : slow

true or false : potassium channels can be blocked by a toxin called tetrodotoxin when it is applied to the outside of the cell membrane where the potassium activation gates are located

false : sodium

true or false :For spontaneous rhythmicity to occur, the membrane—even in its natural state—must be permeable enough to potassium ions (or to calcium and potassium ons through the slow calcium-potassium channels) to allow automatic membrane depolarization

false : sodium not potassium

true or false : sodium channels can be blocked by a toxin called tetraethylammonium when it is applied to the outside of the cell membrane where the sodium activation gates are located

false : tetrodotoxin

true or false :a typical myelinated fiber., The central core of the fiber is the node of ranvier , and the membrane of the node is the membrane that actually conducts the action potential

false : the central core of the fiber is the axon and the membrane of the axon is the membrane that conducts action potential

true or false: Muscle tetany is never lethal

false :Muscle tetany is sometimes lethal because of tetanic contraction of the respiratory muscles.

true or false :Surrounding the axon is a myelin sheath that is often much thinner than the axon itself.

false thicker

true or false :plateau in some action potentials -This type of action potential occurs in heart muscle fibers, where the plateau lasts for as long as 0.4 to 0.5 second and causes contraction of heart muscle to last for this same long period.

false: 0.2 to 0.3 seconds

true or false :About once every 3 to 5 millimeters along the length of the myelin sheath is a node of Ranvier.

false: 1 to 3 millimeters

true or false: the calcium ion concentration needs to fall only 10 percent below normal before spontaneous discharge occurs in some peripheral nerves, often causing muscle "tetany"

false: 50 percent

true or false: The membrane of a Schwann cell first rotates around the axon many times then it envelops the axon. then it begins to lay down multiple layers of Schwann cell membrane containing the lipid substance sphingomyelin

false: The membrane of a Schwann cell first envelops the axon. The Schwann cell then rotates around the axon many times

true or false : a slow and steady inflow of sodium ions, causes a further rise in the membrane potential, thus opening still more voltage-gated sodium channels and allowing more streaming of sodium ions to the interior of the fiber. This process is a positive-feedback cycle that

false: a rapid inflow

true or false:toward the end of each resting membrane potential, and continuing for a short period thereafter, the membrane becomes more permeable to potassium ions.

false: action potential

true or false: because of the slight delay in opening of the potassium channels, for the most part, they open just at the same time that the sodium channels are beginning to close because of activation

false: activation

true or false: an excitable membrane has no single direction of propagation, but the action potential travels in all directions toward from the stimulus—even along all branches of a nerve fiber—until the entire membrane has become depolarized

false: away from

true or false: an excitable membrane has no single direction of propagation, but the action potential travels in all directions away from the stimulus—even along all branches of a nerve fiber—until the entire membrane has become repolarized

false: become depolarized

true or false : the sodium ion concentration needs to fall only 50 percent below normal before spontaneous discharge occurs in some peripheral nerves, often causing muscle "tetany"

false: calcium

true or false: A major function of the voltage-gated potassium ion channels is to contribute to the depolarizing phase on the action potential in some cells.

false: calcium

true or false:The membranes of almost all cells of the body have a calcium pump similar in certain aspects to the sodium pump, a major difference is that calcium goes in contrast with sodium in some cells to cause the cell to return to its resting potential

false: calcium is similar to sodium pump and can cause action potential with or without sodium

true or false :for continued propagation of an impulse to occur, the ratio of action potential to threshold for excitation must at all times be greater than 1. This "greater than 1" requirement is called the action potential factor for propagation.

false: called the safety factor

true or false :Inside the axon are many negatively charged ions that can go through the membrane channels

false: cannot

true or false :new action potential can occur in an excitable fiber as long as the membrane is still depolarized from the preceding action potential

false: cannot occur

true or false: The increased outflow of potassium ions carries tremendous numbers of negative charges to the outside of the membrane, leaving considerably more positivity inside the fiber

false: carries out positive leaving negative inside the the fiber

true or false : Repetitive self-induced discharges occur normally in the heart, in most smooth muscle, and in many of the neurons of the peripheral nervous system

false: central nervous system

true or false: During the resting state, the gate of the potassium channel is open and potassium ions are allowed freely to pass through this channel to the exterior

false: close and prevented from passing

true or false :a typical myelinated fiber., The central core of the fiber is the axon, and the membrane of the axon is the membrane that actually allows the fiber to return to its resting membrane potential

false: conducts the action potential

true or false:The cause of the plateau is a combination of several factors. First, in heart muscle, two types of channels contribute to the repolarization process: (1) the usual voltage-activated sodium channels, called fast channels, and (2) voltage-activated calcium-sodium channels (L-type calcium channels), which are slow to open and therefore are called slow channels. Opening of fast channels causes the spike portion of the action potential, whereas the prolonged opening of the slow calcium-sodium channels mainly allows calcium ions to enter the fiber, which is largely responsible for the plateau portion of the action potential.

false: contribute to the depolarization process

true or false:membrane-stabilizing factors, can increase excitability

false: decrease

true or false:When there is an increase of calcium ions, the sodium channels become activated (opened) by a small increase of the membrane potential from its normal, very negative level

false: deficit

true or false: When there is a deficit of sodium ions, the sodium channels become activated (opened) by a small increase of the membrane potential from its normal, very negative level

false: deficit of calcium

true or false : calcium channels provides a more sustained repolarization, whereas the sodium channels play a key role in initiating action potentials.

false: depolarization

true or false: in relation to propagation of the action potential - This transmission of the repolarization process along a nerve or muscle fiber is called a nerve or muscle impulse.

false: depolarization

true or false: the plateau greatly prolongs the period of repolarization

false: depolarization

true or false :new action potential cannot occur in an excitable fiber as long as the membrane is still repolarized from the preceding action potential

false: depolarized

true or false :A major function of the voltage-gated calcium ion channels is to contribute to the repolarizing phase on the action potential in some cells.

false: depolarizing

true or false :any factor that causes sodium ions to begin to diffuse outward through the membrane in sufficient numbers can set off automatic regenerative opening of the sodium channels

false: diffuse inward

true or false: The probable way in which calcium ions affect the sodium channels is as follows: These ions appear to bind to the exterior surfaces of the sodium channel protein molecule. The positive charges of these calcium ions in turn alter the chemical state of the sodium channel protein, thus altering the voltage level required to open the sodium gate

false: electrical state

true or false :the calcium pump transports calcium ions from the interior to the exterior of the cell membrane (or into the mitocondria of the cell),

false: endoplasmic reticulum

true or false :The axon is filled in its center with axoplasm, which is a viscid intracellular fluid

true

true or false: The probable way in which calcium ions affect the sodium channels is as follows: These ions appear to bind to the interior surfaces of the sodium channel protein molecule. The positive charges of these calcium ions in turn alter the electrical state of the sodium channel protein, thus altering the voltage level required to open the sodium gate

false: exterior

true or false :high intracellular fluid calcium ion concentration decreases membrane permeability to sodium ions and simultaneously reduces excitability. Therefore, calcium ions are said to be a "stabilizer."

false: extracellular

true or false: the calcium ion concentration needs to rise only 50 percent above normal before spontaneous discharge occurs in some peripheral nerves, often causing muscle "tetany"

false: fall 50 below normal

true or false :for continued propagation of an impulse to occur, the ratio of action potential to threshold for excitation must at all times be greater than 5. This "greater than 5" requirement is called the safety factor for propagation.

false: greater than 1

true or false: plateau in some action potentials -This type of action potential occurs in skeletal muscle fibers, where the plateau lasts for as long as 0.2 to 0.3 second and causes contraction of skeletal muscle to last for this same long period.

false: heart muscles

true or false: in relation to propagation of the action potential - This transmission of the depolarization process along a nerve or muscle fiber is called a nerve or muscle tetany

false: impulse

true or false: an excitable membrane has no single direction of propagation, but the action potential travels in one directions away from the stimulus until the entire membrane has become depolarized

false: in all directions

true or false: When there is a deficit of calcium ions, the sodium channels become activated (opened) by a small decrease of the membrane potential from its normal, very negative level

false: increase

true or false :outside the axon are many negatively charged ions that cannot go through the membrane channels

false: inside

true or false : tetraethylammonium ion blocks the potassium channels when it is applied to the exterior of the nerve fiber

false: interior

true or false :voltage-gated calcium channels-When the channels open in response to a stimulus that depolarizes the cell membrane, calcium ions flow to the exterior of the cell.

false: interior

true or false :a rapid inflow of sodium ions, causes a further rise in the membrane potential, thus opening still more voltage-gated sodium channels and allowing more streaming of sodium ions to the exterior of the fiber. This process is a positive-feedback cycle that

false: interior of the fiber

true or false :the calcium pump transports calcium ions from the exterior to the interior of the cell membrane (or into the endoplasmic reticulum of the cell),

false: interior to the exterior

true or false: The probable way in which calcium ions affect the sodium channels is as follows: These ions appear to bind to the exterior surfaces of the sodium channel protein molecule. The positive charges of these calcium ions in turn alter the electrical state of the sodium channel protein, but this does not alter the voltage level required to open the sodium gate

false: it does alter

true or false: during a plateau potassium channels are faster to open than usual, often opening fully before the end of the plateau

false: much slower , not opening much until the end of the plateau

true or false :Surrounding the axon is a unmyelinate sheath that is often much thicker than the axon itself.

false: myelin sheath

true or false :a typical unmyelinated fiber., The central core of the fiber is the axon, and the membrane of the axon is the membrane that actually conducts the action potential

false: myelinated

true or false:When there is a deficit of calcium ions, the sodium channels become activated (opened) by a small increase of the membrane potential from its normal, very positive level

false: negative level

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a greater degree than normal . then, rapid diffusion of potassium ions to the exterior establishes the abnormal positive resting membrane potential this is call repolarization

false: normal negative resting membrane potential

true or false :When the membrane potential rises from −90 millivolts toward zero, this voltage change causes a conformational opening of the potassium channel gate and allows increased potassium diffusion inward through the channel

false: outward

true or false :toward the end of each action potential, and continuing for a short period thereafter, the membrane becomes more impermeable to potassium ions.

false: permeable to potassium ions

true or false: An action potential will not occur until the initial rise in membrane potential is great enough to create the negative feedback

false: positive

true or false : The probable way in which calcium ions affect the sodium channels is as follows: These ions appear to bind to the exterior surfaces of the sodium channel protein molecule. The negative charges of these calcium ions in turn alter the electrical state of the sodium channel protein, thus altering the voltage level required to open the sodium gate

false: positive charges of calcium

true or false :a rapid inflow of sodium ions, causes a further rise in the membrane potential, thus opening still more voltage-gated sodium channels and allowing more streaming of sodium ions to the interior of the fiber. This process is a negative-feedback cycle that

false: positive-feedback

true or false :When the membrane potential rises from −90 millivolts toward zero, this voltage change causes a conformational opening of the sodium channel gate and allows increased sodium diffusion outward through the channel

false: potassium

true or false :once the sodium channels open, they remain open for the entire duration of the positive membrane potential and do not close again until after the membrane potential is decreased back to a negative value

false: potassium

true or false :tetraethylammonium ion blocks the sodium channels when it is applied to the interior of the nerve fiber

false: potassium

true or false: The increased outflow of sodium ions carries tremendous numbers of positive charges to the outside of the membrane, leaving considerably more negativity inside the fiber

false: potassium

true or false:during a plateau sodium channels are slower to open than usual, often not opening much until the end of the plateau

false: potassium

true or false :toward the end of each action potential, and continuing for a short period thereafter, the membrane becomes more permeable to sodium ions.

false: potassium ions

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a greater degree than normal . then, rapid diffusion of potassium ions to the interior reestablishes the normal negative resting membrane potential this is call repolarization

false: potassium to the exterior

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a greater degree than normal . then, slow diffusion of potassium ions to the exterior reestablishes the normal negative resting membrane potential this is call repolarization

false: rapid diffusion of potassium

true or false: once the potassium channels open, they remain open for the entire duration of the negative membrane potential and do not close again until after the membrane potential is increased back to a positive value

false: remain open during positive potential until it is decreased back to a negative value

true or false :not possible for the sodium channels to open again without first depolarizing the nerve fiber.

false: repolarizaing

true or false :For spontaneous rhythmicity to occur, the membrane—even in its natural state—must be permeable enough to sodium ions (or to calcium and sodium ions through the slow calcium-sodium channels) to allow automatic membrane repolarization

false: repolarization

true or false :sodium ions diffuse to the inside during depolarization and potassium ions diffuse to the outside during depolarization

false: repolarization

true or false : Muscle tetany is sometimes lethal because of tetanic contraction of the cardiac muscles.

false: respiratory muscle

true or false:During the action potential , the gate of the potassium channel is closed and potassium ions are prevented from passing through this channel to the exterior

false: resting state

true or false :the opening (activation) of the sodium channels, which open slowly and reach their full open state only after the potassium channels have almost completely closed.

false: reverse sodium and potassium

true or false : a rapid inflow of sodium ions, causes a further decrease in the membrane potential, thus opening still more voltage-gated sodium channels and allowing more streaming of sodium ions to the interior of the fiber. This process is a positive-feedback cycle that

false: rise in the membrane potential

true or false: if any event causes enough initial decrease in the membrane potential from −90 millivolts toward a more negative level, the decreasing voltage will cause many voltage-gated sodium channels to begin opening

false: rise in the membrane toward zero cause a rise in voltage

true or false:any factor that causes sodium ions to begin to diffuse inward through the membrane in sufficient numbers can inhibit automatic regenerative opening of the sodium channels

false: set off automatic regenerative opening of the sodium channel

true or false : Repetitive self-induced discharges occur normally in the heart, in most skeletal muscle, and in many of the neurons of the central nervous system

false: smooth muscle

true or false :any factor that causes potassium ions to begin to diffuse inward through the membrane in sufficient numbers can set off automatic regenerative opening of the potassium channels

false: sodium

true or false :The cause of the plateau is a combination of several factors. First, in heart muscle, two types of channels contribute to the depolarization process: (1) the usual voltage-activated sodium channels, called slow channels, and (2) voltage-activated calcium-sodium channels (L-type calcium channels), which are fast to open and therefore are called fast channels. Opening of fast channels causes the spike portion of the action potential, whereas the prolonged opening of the fast calcium-sodium channels mainly allows calcium ions to enter the fiber, which is largely responsible for the plateau portion of the action potential.

false: sodium are called fast channels and calcium are the slow channels

true or false : potassium ions diffuse to the inside during depolarization and sodium ions diffuse to the outside during repolarization

false: sodium inside and potassium outside

true or false:high extracellular fluid calcium ion concentration decreases membrane permeability to potassium ions and simultaneously reduces excitability. Therefore, calcium ions are said to be a "stabilizer."

false: sodium not potassium

true or false :The membrane of a Schwann cell first envelops the axon. The Schwann cell then rotates around the axon many times, laying down multiple layers of Schwann cell membrane containing the lipid substance sphingoetanolmina

false: sphingomyelin

true or false:high extracellular fluid calcium ion concentration decreases membrane permeability to sodium ions and simultaneously reduces excitability. Therefore, calcium ions are said to be a "excitatory ion ."

false: stabilizer

true or false : because of the slight delay in closing of the potassium channels, for the most part, they close just at the same time that the sodium channels are beginning to open because of inactivation

false: switch close and open

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to open and potassium channels close to a greater degree than normal . then, rapid diffusion of potassium ions to the exterior reestablishes the normal negative resting membrane potential this is call repolarization

false: switch open and close

true or false : When there is a deficit of sodium ions, the calcium channels become activated (opened) by a small increase of the membrane potential from its normal, very negative level

false: switch sodium and calcium

true or false : sodium channels provides a more sustained depolarization, whereas the calcium channels play a key role in initiating action potentials.

false: switch sodium and calcium

true or false : tetrodotoxin blocks the potassium channels when it is applied to the interior of the nerve fiber

false: tetraethylammonium

true or false:The cause of the plateau is a combination of several factors. First, in heart muscle, two types of channels contribute to the depolarization process: (1) the usual voltage-activated sodium channels, called fast channels, and (2) voltage-activated calcium-sodium channels (L-type calcium channels), which are slow to open and therefore are called slow channels. Opening of slow channels causes the spike portion of the action potential, whereas the prolonged opening of the fast sodium channels mainly allows sodium ions to enter the fiber, which is largely responsible for the plateau portion of the action potential.

false: the calcium channels are largely responsible for the plateau portion and the sodium fast channels are cause the spike portion

true of false: a typical myelinated fiber., The distal ends of the fiber is the axon, and the membrane of the axon is the membrane that actually conducts the action potential

false: the central core of the fiber is the axon

true or false : The average nerve trunk contains about five times as many unmyelinated fibers as myelinated fibers

false: twice

true or false : The average nerve trunk contains about twice as many myelinated fibers as unmyelinated fibers

false: twice as many unmyelinated

true or false: Propagation of the Action Potential an action potential elicited at any one point on an excitable membrane can not excite adjacent portions of the membrane, resulting in propagation of the action potential along the membrane.

false: usually excites adjacent portions

true or false : chemical-gated calcium channels-When the channels open in response to a stimulus that depolarizes the cell membrane, calcium ions flow to the interior of the cell.

false: voltage

true or false :The necessary actor in causing both depolarization and repolarization of the nerve membrane during the action potential is the chemical-gated sodium channel.

false: voltage

true or false:A major function of the chemical-gated calcium ion channels is to contribute to the depolarizing phase on the action potential in some cells.

false: voltage

true or false :The cause of the plateau is a combination of several factors. First, in heart muscle, two types of channels contribute to the depolarization process: (1) the usual chemical-activated sodium channels, called fast channels, and (2) chemical-activated calcium-sodium channels (L-type calcium channels), which are slow to open and therefore are called slow channels. Opening of fast channels causes the spike portion of the action potential, whereas the prolonged opening of the slow calcium-sodium channels mainly allows calcium ions to enter the fiber, which is largely responsible for the plateau portion of the action potential.

false: voltage-activated sodium channels

true or false :hyperpolarization- As long as this state exists, self-re-excitation sometimes can occur

false: will not occur

true or false :Another important characteristic of the sodium channel inactivation process is that the inactivation gate will sometimes reopen before the membrane potential returns to or near the original resting membrane potential level

false: will not reopen

true or false: ions can only flow through the thick myelin sheaths of myelinated nerves, they cannot flow with ease through the nodes of Ranvier. Therefore, action potentials cannot occur at the nodes.

false:no ions can flow through the thick myelin sheaths of myelinated nerves, they can flow with ease through the nodes of Ranvier. Therefore, action potentials occur only at the nodes.

what factors can lead to the automatic regenerative opening of sodium channels in the Process of Eliciting the Action Potential

mechanical disturbance of the membrane, chemical effects on the membrane, or passage of electricity through the membrane

what do you call the action potential that are conducted from node to node

saltatory conduction

true or false : voltage gated sodium channel -This channel has two gates—one near the inside of the channel called the activation gate, and another near the outside called the inactivation gate

switch inside and outside

true or false :because of the slight delay in opening of the sodium channels, for the most part, they open just at the same time that the potassium channels are beginning to close because of inactivation

switch sodium and potassium

what is the node of ranvier ?

the juncture between each two successive Schwann cells along the axon, a small uninsulated area only 2 to 3 micrometers in length remains where ions still can flow with ease through the axon membrane between the extracellular fluid and the intracellular fluid inside the axon

true or false : The membranes of almost all cells of the body have a calcium pump similar to the sodium pump, and calcium serves along with (or instead of) sodium in some cells to cause most of the action potential

true

true or false : When there is a deficit of calcium ions, the sodium channels become activated (opened) by a small increase of the membrane potential from its normal, very negative level

true

true or false : during a plateau potassium channels are slower to open than usual, often not opening much until the end of the plateau

true

true or false : for continued propagation of an impulse to occur, the ratio of action potential to threshold for excitation must at all times be greater than 1. This "greater than 1" requirement is called the safety factor for propagation.

true

true or false : in relation to propagation of the action potential - This transmission of the depolarization process along a nerve or muscle fiber is called a nerve or muscle impulse.

true

true or false : not possible for the sodium channels to open again without first repolarizing the nerve fiber.

true

true or false : once the potassium channels open, they remain open for the entire duration of the positive membrane potential and do not close again until after the membrane potential is decreased back to a negative value

true

true or false : plateau in some action potentials -This type of action potential occurs in heart muscle fibers, where the plateau lasts for as long as 0.2 to 0.3 second and causes contraction of heart muscle to last for this same long period.

true

true or false : sodium channels can be blocked by a toxin called tetrodotoxin when it is applied to the outside of the cell membrane where the sodium activation gates are located

true

true or false : the calcium ion concentration needs to fall only 50 percent below normal before spontaneous discharge occurs in some peripheral nerves, often causing muscle "tetany"

true

true or false : the plateau greatly prolongs the period of depolarization

true

true or false : voltage gated sodium channel -This channel has two gates—one near the outside of the channel called the activation gate, and another near the inside called the inactivation gate

true

true or false :About once every 1 to 3 millimeters along the length of the myelin sheath is a node of Ranvier.

true

true or false :Another important characteristic of the sodium channel inactivation process is that the inactivation gate will not reopen until the membrane potential returns to or near the original resting membrane potential level

true

true or false :For spontaneous rhythmicity to occur, the membrane—even in its natural state—must be permeable enough to sodium ions (or to calcium and sodium ions through the slow calcium-sodium channels) to allow automatic membrane depolarization

true

true or false :Surrounding the axon is a myelin sheath that is often much thicker than the axon itself.

true

true or false :The cause of the plateau is a combination of several factors. First, in heart muscle, two types of channels contribute to the depolarization process: (1) the usual voltage-activated sodium channels, called fast channels, and (2) voltage-activated calcium-sodium channels (L-type calcium channels), which are slow to open and therefore are called slow channels. Opening of fast channels causes the spike portion of the action potential, whereas the prolonged opening of the slow calcium-sodium channels mainly allows calcium ions to enter the fiber, which is largely responsible for the plateau portion of the action potential.

true

true or false :The increased outflow of potassium ions carries tremendous numbers of positive charges to the outside of the membrane, leaving considerably more negativity inside the fiber

true

true or false :The large fibers are myelinated, and the small ones are unmyelinated

true

true or false :When the membrane potential rises from −90 millivolts toward zero, this voltage change causes a conformational opening of the potassium channel gate and allows increased potassium diffusion outward through the channel

true

true or false :a rapid inflow of sodium ions, causes a further rise in the membrane potential, thus opening still more voltage-gated sodium channels and allowing more streaming of sodium ions to the interior of the fiber. This process is a positive-feedback cycle .

true

true or false :a typical myelinated fiber., The central core of the fiber is the axon, and the membrane of the axon is the membrane that actually conducts the action potential

true

true or false :any factor that causes sodium ions to begin to diffuse inward through the membrane in sufficient numbers can set off automatic regenerative opening of the sodium channels

true

true or false :because of the slight delay in opening of the potassium channels, for the most part, they open just at the same time that the sodium channels are beginning to close because of inactivation

true

true or false :if any event causes enough initial rise in the membrane potential from −90 millivolts toward the zero level, the rising voltage will cause many voltage-gated sodium channels to begin opening

true

true or false :membrane-stabilizing factors, can decrease excitability

true

true or false :new action potential cannot occur in an excitable fiber as long as the membrane is still depolarized from the preceding action potential

true

true or false :no ions can flow through the thick myelin sheaths of myelinated nerves, they can flow with ease through the nodes of Ranvier. Therefore, action potentials occur only at the nodes.

true

true or false :the calcium pump transports calcium ions from the interior to the exterior of the cell membrane (or into the endoplasmic reticulum of the cell),

true

true or false :toward the end of each action potential, and continuing for a short period thereafter, the membrane becomes more permeable to potassium ions.

true

true or false :voltage-gated calcium channels-When the channels open in response to a stimulus that depolarizes the cell membrane, calcium ions flow to the interior of the cell.

true

true or false: Propagation of the Action Potential an action potential elicited at any one point on an excitable membrane usually excites adjacent portions of the membrane, resulting in propagation of the action potential along the membrane.

true

true or false: A major function of the voltage-gated calcium ion channels is to contribute to the depolarizing phase on the action potential in some cells.

true

true or false: An action potential will not occur until the initial rise in membrane potential is great enough to create the positive feedback

true

true or false: During the resting state, the gate of the potassium channel is closed and potassium ions are prevented from passing through this channel to the exterior

true

true or false: Inside the axon are many negatively charged ions that cannot go through the membrane channels

true

true or false: Repetitive self-induced discharges occur normally in the heart, in most smooth muscle, and in many of the neurons of the central nervous system

true

true or false: The membrane of a Schwann cell first envelops the axon. The Schwann cell then rotates around the axon many times, laying down multiple layers of Schwann cell membrane containing the lipid substance sphingomyelin

true

true or false: The necessary actor in causing both depolarization and repolarization of the nerve membrane during the action potential is the voltage-gated sodium channel.

true

true or false: The probable way in which calcium ions affect the sodium channels is as follows: These ions appear to bind to the exterior surfaces of the sodium channel protein molecule. The positive charges of these calcium ions in turn alter the electrical state of the sodium channel protein, thus altering the voltage level required to open the sodium gate

true

true or false: an excitable membrane has no single direction of propagation, but the action potential travels in all directions away from the stimulus—even along all branches of a nerve fiber—until the entire membrane has become depolarized

true

true or false: calcium channels are often called slow channels

true

true or false: depolarization process travels over the entire membrane if conditions are right, but it does not travel at all if conditions are not right. This principle is called the all-or-nothing principle

true

true or false: high extracellular fluid calcium ion concentration decreases membrane permeability to sodium ions and simultaneously reduces excitability. Therefore, calcium ions are said to be a "stabilizer."

true

true or false: hyperpolarization- As long as this state exists, self-re-excitation will not occur.

true

true or false: sodium ions diffuse to the inside during depolarization and potassium ions diffuse to the outside during repolarization

true

true or false: sodium, potassium, and chloride ions are the most important ions involved in the development of membrane potentials in nerve and muscle fibers

true

true or false: tetraethylammonium ion blocks the potassium channels when it is applied to the interior of the nerve fiber

true

true or false: the opening (activation) of the potassium channels, which open slowly and reach their full open state only after the sodium channels have almost completely closed.

true

true or false:Muscle tetany is sometimes lethal because of tetanic contraction of the respiratory muscles.

true

true or false:The myelin sheath is deposited around the axon by Schwann cells

true

origin of normal resting membrane potential , what contributes to it ?

Contribution of the Potassium Diffusion Potential Contribution of Sodium Diffusion through the Nerve Membrane. Contribution of the Na+-K+ Pump.

true or false : The resting membrane potential of large nerve fibers when they are not transmitting nerve signals is about −61 millivolts

false : -90mv

true or false :a negative ion concentration gradient from inside the membrane to the outside causes electronegativity inside the membrane

false : a positive ion concentration

true or false :Because of the large potassium concentration gradient from inside toward outside, there is a weak tendency for extra numbers of potassium ions to diffuse outward through the membrane

false : a strong tendency

true or false : sodium, potassium, and chloride ions are the most important ions involved in the development of membrane potentials in only nerve fibers

false : and muscle fibers

true or false : diffusion of ions carries positive charges to the outside but leaves the nondiffusible negative cationes on the inside, thus creating electronegativity on the inside.

false : aniones

true or false : The resting membrane potential of large nerve fibers when they are transmitting nerve signals is about −90 millivolts

false : are not transmitting

true or false : diffusion of ions carries negative charges to the outside but leaves the nondiffusible negative anions on the inside, thus creating electronegativity on the inside.

false : carries positive

true or false: the permeability of the sodium and potassium channels undergoes rapid changes during transmission of a nerve impulse, whereas the permeability of the chloride channels also will change greatly during this process

false : chloride channels do not change

true or false : chemical potentials exist across the membranes of virtually all cells of the body

false : electrical

true or false : diffusion of ions carries positive charges to the outside but leaves the nondiffusible negative anions on the inside, thus creating electropositivity on the inside.

false : electronegativity

true or false : a decrease in positive ions diffuse to the outside when their concentration is higher inside than outside

false : excess

true or false : a positive ion concentration gradient from outside the membrane to the inside causes electronegativity inside the membrane

false : from the inside to the outside

true or false : potassium concentration is very low inside a nerve fiber membrane but great outside the membrane

false : great - inside , very low - outside

true or false : Electrical potentials exist across the membranes of very few cells of the body

false : in almost all cells

true or false : excess positive ions diffuse to the outside when their concentration is higher outside than inside

false : inside than outside

true or false :resting potential outside the nerve fiber is 90 millivolts more negative than the potential in the intracellular fluid on the inside of the

false : inside the fluid , extracellular fluid

true or false :a positive ion concentration gradient from inside the membrane to the outside causes electronegativity outside the membrane

false : inside the membrane

true or false : excess positive ions diffuse to the outside when their concentration is lower inside than outside

false : is higher

the Na+-K+ pump is an electrogenic pump because more negative charges are pumped to the outside than to the inside (three Na+ ions to the outside for each two K+ ions to the inside)

false : more positive

true or false: sodium, potassium, and chloride ions are the least important ions involved in the development of membrane potentials in nerve and muscle fibers

false : most important

true or false : diffusion of ions carries positive charges to the outside but leaves the nondiffusible positive anions on the inside, thus creating electronegativity on the inside.

false : negative anions

true or false : the permeability of the sodium and potassium channels undergoes rapid changes during transmission of a muscle impulse, whereas the permeability of the chloride channels does not change greatly during this process

false : nerve impulses

true or false : sodium concentration is great inside a nerve fiber membrane but very low outside the membrane

false : potassium

true or false: the quality importance of each of the ions in determining the voltage is proportional to the membrane permeability for that particular ion

false : quantitative

true or false : slow changes in sodium and potassium permeability are primarily responsible for signal transmission in neurons

false : rapid

true or false : the permeability of the sodium and potassium channels undergoes slow changes during transmission of a nerve impulse, whereas the permeability of the chloride channels does not change greatly during this process

false : rapid changes

true of false : sodium, potassium, and calcium ions are the most important ions involved in the development of membrane potentials in nerve and muscle fibers

false : sodium , potassium , and chloride

true or false : rapid changes in calcium and potassium permeability are primarily responsible for signal transmission in neurons

false : sodium and potassium

true or false : sodium, phosphate, and chloride ions are the most important ions involved in the development of membrane potentials in nerve and muscle fibers

false : sodium, potassium , and chloride

true or false: the concentration gradient of each of ions across the membrane helps determine the chemicals in the membrane potential

false : the voltage

true or false : the Na+-K+ pump is an electrogenic pump because more positive charges are pumped to the outside than to the inside (two Na+ ions to the outside for each three K+ ions to the inside)

false : three Na+ and two K+

true or false : excess positive ions diffuse to the inside when their concentration is higher inside than outside

false : to the outside

the Na+-K+ pump is an electrogenic pump because more positive charges are pumped to the inside than to the outside (three Na+ ions to the outside for each two K+ ions to the inside)

false : to the outside than to the inside

true or false : the concentration gradient of each of ions across the membrane does not helps determine the voltage of the membrane potential

false does help

true or false: The resting stage is the resting membrane potential before the action potential begins. The membrane is said to be "polarized" during this stage because of the −61 millivolts negative membrane potential that is present.

false: -90mv

true or false:the Na+-K+ pump leaves positive ions on the inside and causes a negative potential outside the cell membrane.

false: a negative potential inside

true or false : that not all, but most cell membranes of the body have a powerful Na+-K+ pump that continually transports sodium ions to the outside of the cell and potassium ions to the inside,

false: all

true or false : sodium, potassium, and chloride ions are the most important ions involved in the development of membrane potentials in only muscle fibers

false: and nerve fibers

true or false : during the repolarization phase the membrane suddenly becomes permeable to sodium ions, allowing tremendous numbers of positively charged sodium ions to diffuse to the interior of the axon.

false: depolarization

true or false : the potential rising rapidly in the positive direction—it is called repolarization

false: depolarization

true or false : similarity in permeability is a key factor in determining the level of the normal resting membrane potential.

false: differential

true or false : potential difference between the inside and outside is called the action potential

false: diffusion potential

true or false: some but not all action potentials begin with a sudden change from the normal resting negative membrane potential to a positive potential and ends with an almost equally rapid change back to the negative potential

false: each potential

true or false:the Na+-K+ pump is an chemical pump because more positive charges are pumped to the outside than to the inside (three Na+ ions to the outside for each two K+ ions to the inside)

false: electrogenic

true or false : a positive ion concentration gradient from inside the membrane to the outside causes electropositivity inside the membrane

false: electronegativity

true or false : diffusion of ions carries positive charges to the outside but leaves the nondiffusible negative anions on the inside, thus creating electronegativity on the outside

false: electronegativity on the inside

true or false: Each action potential begins with a sudden change from the normal resting negative membrane potential to a positive potential and ends with an almost a slower change back to the negative potential

false: equally rapid change back

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a lesser degree than normal . then, rapid diffusion of potassium ions to the exterior reestablishes the normal negative resting membrane potential this is call repolarization

false: greater degree than normal

true or false : Because of the large potassium concentration gradient from outside toward inside , there is a strong tendency for extra numbers of potassium ions to diffuse outward through the membrane

false: inside toward outside

true or false : during the depolarization phase the membrane suddenly becomes permeable to sodium ions, allowing tremendous numbers of positively charged sodium ions to diffuse to the exterior of the axon.

false: interior

true or false : diffusion of ions carries positive charges to the outside but leaves the diffusible negative anions on the inside, thus creating electronegativity on the inside.

false: nondiffusible

true or false :differential in permeability is a key factor in determining the level of the abnormal resting membrane potential.

false: normal

true or false:the Na+-K+ pump leaves positive ions on the outside and causes a negative potential inside the cell membrane.

false: on the inside leave positive ions

true or false: during the depolarization phase the membrane suddenly becomes impermeable to sodium ions, allowing tremendous numbers of positively charged sodium ions unable diffuse to the interior of the axon.

false: permeable and able to diffuse

true or false: The resting stage is the resting membrane potential before the action potential begins. The membrane is said to be "depolarized" during this stage because of the −90 millivolts negative membrane potential that is present.

false: polarized

true or false : the potential rising rapidly in the negative direction—it is called depolarization

false: positive

true or false:The resting stage is the resting membrane potential before the action potential begins. The membrane is said to be "polarized" during this stage because of the 90 millivolts positive membrane potential that is present.

false: positive

true or false:the Na+-K+ pump leaves negative ions on the inside and causes a negative potential inside the cell membrane.

false: positive ions

true or false: the Na+-K+ pump leaves positive ions on the inside and causes a negative potential inside the cell membrane.

false: positive potential

true or false : Because of the large sodium concentration gradient from inside toward outside, there is a strong tendency for extra numbers of sodium ions to diffuse outward through the membrane

false: potassium

true or false : the quantitative importance of each of the ions in determining the voltage is disproportional to the membrane permeability for that particular ion

false: proportional

true or false : Nerve signals are transmitted by action potentials, which are slow but strong changes in the membrane potential that spread along the nerve fiber membrane

false: rapid changes

true or false : the potential rising slowly in the positive direction—it is called depolarization

false: rapidly

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a greater degree than normal . then, rapid diffusion of potassium ions to the exterior reestablishes the normal negative resting membrane potential this is call depolarization

false: repolarization

true or false:The depolarization stage is the resting membrane potential before the action potential begins. The membrane is said to be "polarized" during this stage because of the −90 millivolts negative membrane potential that is present.

false: resting stage

true or false: bicarbonate, potassium, and chloride ions are the most important ions involved in the development of membrane potentials in nerve and muscle fibers

false: sodium , potassium , and chloride

true or false : that all cell membranes of the body have a powerful Na+-K+ pump that continually transports sodium ions to the inside of the cell and potassium ions to the outside,

false: sodium - outside and potassium - inside

true or false : during the depolarization phase the membrane suddenly becomes permeable to potassium ions, allowing tremendous numbers of positively charged potassium ions to diffuse to the interior of the axon.

false: sodium ions not potassium ions

true or false : the Na+-K+ pump is an electrogenic pump because more positive charges are pumped to the outside than to the inside (three Na+ ions to the inside for each two K+ ions to the outside)

false: sodium outside and potassium inside

true of false :Each action potential begins with a progressively growing change from the normal resting negative membrane potential to a positive potential and ends with an almost equally rapid change back to the negative potential

false: sudden change

true or false: Each action potential begins with a sudden change from the normal resting positive membrane potential to a negative potential and ends with an almost equally rapid change back to the positive potential

false: switch all the negatives and positives

true or false Within a few 10,000ths of a second after the membrane becomes highly permeable to potassium ions, the potassium channels begin to close and the sodium channels open to a greater degree than normal. Then, rapid diffusion of sodium ions to the exterior re-establishes the normal negative resting membrane potential, this is called repolarization

false: switch potassium and sodium

true or false : the membrane is highly permeable to sodium but only slightly permeable to potassium, it is logical that the diffusion of sodium contributes far more to the membrane potential than does the diffusion of potassium

false: switch potassium and sodium

true or false within a few 10,000ths of a second after the membrane becomes highly permeable to sodium ions , the sodium channel begins to close and potassium channels open to a greater degree than normal . then, rapid diffusion of potassium ions to the exterior reestablishes the normal negative resting membrane potential this is call repolarization

true

true or false : Because of the large potassium concentration gradient from inside toward outside, there is a strong tendency for extra numbers of potassium ions to diffuse outward through the membrane

true

true or false : a positive ion concentration gradient from inside the membrane to the outside causes electronegativity inside the membrane

true

true or false : diffusion of ions carries positive charges to the outside but leaves the nondiffusible negative anions on the inside, thus creating electronegativity on the inside.

true

true or false : excess positive ions diffuse to the outside when their concentration is higher inside than outside

true

true or false : potassium concentration is great inside a nerve fiber membrane but very low outside the membrane

true

true or false : potential difference between the inside and outside is called the diffusion potential

true

true or false : rapid changes in sodium and potassium permeability are primarily responsible for signal transmission in neurons

true

true or false : resting potential inside the nerve fiber is 90 millivolts more negative than the potential in the extracellular fluid on the outside of the

true

true or false : the Na+-K+ pump is an electrogenic pump because more positive charges are pumped to the outside than to the inside (three Na+ ions to the outside for each two K+ ions to the inside)

true

true or false : the concentration gradient of each of ions across the membrane helps determine the voltage of the membrane potential

true

true or false : the permeability of the sodium and potassium channels undergoes rapid changes during transmission of a nerve impulse, whereas the permeability of the chloride channels does not change greatly during this process

true

true or false : the potential rising rapidly in the positive direction—it is called depolarization

true

true or false : the resting membrane potential of large nerve fibers when they are not transmitting nerve signals is about −90 millivolts

true

true or false :Nerve signals are transmitted by action potentials, which are rapid changes in the membrane potential that spread rapidly along the nerve fiber membrane

true

true or false :differential in permeability is a key factor in determining the level of the normal resting membrane potential.

true

true or false :the membrane is highly permeable to potassium but only slightly permeable to sodium, it is logical that the diffusion of potassium contributes far more to the membrane potential than does the diffusion of sodium

true

true or false :the quantitative importance of each of the ions in determining the voltage is proportional to the membrane permeability for that particular ion.

true

true or false: Electrical potentials exist across the membranes of virtually all cells of the body

true

true or false: The resting stage is the resting membrane potential before the action potential begins. The membrane is said to be "polarized" during this stage because of the −90 millivolts negative membrane potential that is present.

true

true or false: during the depolarization phase the membrane suddenly becomes permeable to sodium ions, allowing tremendous numbers of positively charged sodium ions to diffuse to the interior of the axon.

true

true or false: that all cell membranes of the body have a powerful Na+-K+ pump that continually transports sodium ions to the outside of the cell and potassium ions to the inside

true

true or false:the Na+-K+ pump leaves positive ions on the inside and causes a negative potential inside the cell membrane.

true

true or false : Because of the large potassium concentration gradient from inside toward outside, there is a strong tendency for extra numbers of potassium ions to diffuse inward through the membrane

true or false : outward toward the membrane


Ensembles d'études connexes

ACCY 501 Test 2: Internal Audit Flint

View Set

Module #4 Finance Test Questions

View Set

Final Exam Study Guide for SOC 100

View Set