In its resting state, the membrane surrounding a neuron is
permeable to potassium ions but only slightly permeable to sodium
ions. Thus, positive K ions can flow through the membrane in an
attempt to equalize K concentration, but Na ions cannot as quickly.
This leads to an excess of Na ions outside of the cell. If the
space outside the cell is defined as zero electric potential, then
the electric potential of the interior of the cell is negative.
This resting potential is typically about 
80 
. A schematic of this situation
is shown in the figure:
In response to an electrical stimulus, certain channels in
the membrane can become permeable to Na ions. Due to the
concentration gradient, Na ions rush into the cell and the interior
of the cell reaches an electric potential of about
40 . This process is
termed depolarization. In response to
depolarization, the membrane again becomes less permeable to Na
ions, and the K ions flow out of the interior of the cell through
channels established by the positive electric potential inside of
the cell. This then reestablishing the resting potential. This is
termed repolarization. Only a small
percentage of the available Na and K ions participate in each
depolarization/repolarization cycle, so the cell can respond to
many stimuli in succession without depleting its "stock" of
available Na and K ions. A graph of an electric potential inside a
cell vs. time is shown in the next figure (Intro 2
figure) for a single depolarization/repolarization
cycle.
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Homework Answers
Because it does not have electric potential outside of the cell membrane.
U=qV=eV
B) -80meV
C) +80meV
D)+40meV
Add Answer to:
In its resting state, the membrane surrounding a neuron is
permeable to potassium ions but only...
With respect to the membrane potential which of the following is NOT true? A. In resting...
With respect to the membrane potential which of the following is NOT true? A. In resting cells, the membrane potential is negative because sodium ions are less permeable than potassium ions. B. The resting potential of the nerve cell depends on voltage gated potassium channels C. While chloride is much more permeable than sodium, it adds relatively little to the negative membrane potential. D. The concentration of chloride inside/outside the cell is the reciprocal of the potassium concentration of the...
Correct answer is 51.1 mV 4. Magnitude of the revereal potential oreated by nerve cell discharge....
Correct answer is 51.1 mV
4. Magnitude of the revereal potential oreated by nerve cell discharge. A nerve cell (resting potential 75 mv: inside negative) fires when some stimulus affects the nerve cell membrane and causes it to suddenly become highly permeable to Na ions. Depolarization occurs as Na ions rush inside the cell. At the height of this process, enough Na ions are inside the cell to actually make the interior positively charged relative to the exterior; that is,...
Potassium ions (K+) move across a 7.0-nm- thick cell membrane from the inside to the outside....
Potassium ions (K+) move across a 7.0-nm- thick cell membrane from the inside to the outside. The potential inside the cell is −80.0 mV, and the potential outside is zero. What is the change in the electrical potential energy Δ? electric of the potassium ions as they move across the membrane?
Under certain circumstances, potassium ions in a cell will move across the cell membrane from the...
Under certain circumstances, potassium ions in a cell will move
across the cell membrane from the inside to the outside. The
potential inside the cell is -75.5mV and the potential outside he
cell is zero. What is the change in the electrical potential energy
of a single potassium ion as it moves across the membrane ?
orries TxLakehead University-PHYS 1N Net iscms/mod/ficn/view.php?id 429903 Jump to... Winter19-MACKAY > Activities and Due Dates > HW: Electric Potential re: ResourcesGive Up Feedback Attempt...
2. Explain how the resting membrane potential of a neuron is established by a. Listing the...
2. Explain how the resting membrane potential of a neuron is established by a. Listing the important ions/molecules that contribute to the establishment of the membrane potential (there are 4) Describing which direction the ions/molecules flow (if at all; in or out of the cell?) Telling me which one of the ions/molecules is the MOST important for establishing the resting membrane potential and WHY b. c. Explaining how this ONE important ion/molecule flows through the membrane by describing the opposing...
0 Attempt 1 of 22> Potassium ions (K) move across a 9.0-nm-thick cell membrane from the...
0 Attempt 1 of 22> Potassium ions (K) move across a 9.0-nm-thick cell membrane from the inside to the outside. The potential inside the cell is -70.0 mV, and the potential outside is zero. What is the change in the electrical potential energy AU of the potassium ions as they move across the membrane? AUelectric =1 1.214 ×10-20
What is a resting potential? Is it positive or negative? The resting potential is mainly due...
What is a resting potential? Is it positive or negative? The resting potential is mainly due to the main _____-charged large molecules stuck inside the neuron. The Na+/K+ pump pushes Na+ _____ of the cell and K+ ____ of the cell (in or out for each ion) Where is K+ concentrated, inside or outside of the neuron? Where is Na+ concentrated, inside or outside of the neuron? The action potential starts with an rise in membrane voltage. This is due...
Under certain circumstances, potassium ions (K") in a cell will move across the cell membrane from...
Under certain circumstances, potassium ions (K") in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is -80.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: 1.36 x10 Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions...
Under certain circumstances, potassium ions (K+) in a cell will move across the cell membrane from...
Under certain circumstances, potassium ions (K+) in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is-80.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions move from the...
Under certain circumstances, potassium ions (K) in a cell will move across the cell membrane from...
Under certain circumstances, potassium ions (K) in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is -70.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions move from...
Correct answer is 51.1 mV
4. Magnitude of the revereal potential oreated by nerve cell discharge. A nerve cell (resting potential 75 mv: inside negative) fires when some stimulus affects the nerve cell membrane and causes it to suddenly become highly permeable to Na ions. Depolarization occurs as Na ions rush inside the cell. At the height of this process, enough Na ions are inside the cell to actually make the interior positively charged relative to the exterior; that is,...
Under certain circumstances, potassium ions in a cell will move
across the cell membrane from the inside to the outside. The
potential inside the cell is -75.5mV and the potential outside he
cell is zero. What is the change in the electrical potential energy
of a single potassium ion as it moves across the membrane ?
orries TxLakehead University-PHYS 1N Net iscms/mod/ficn/view.php?id 429903 Jump to... Winter19-MACKAY > Activities and Due Dates > HW: Electric Potential re: ResourcesGive Up Feedback Attempt...
2. Explain how the resting membrane potential of a neuron is established by a. Listing the important ions/molecules that contribute to the establishment of the membrane potential (there are 4) Describing which direction the ions/molecules flow (if at all; in or out of the cell?) Telling me which one of the ions/molecules is the MOST important for establishing the resting membrane potential and WHY b. c. Explaining how this ONE important ion/molecule flows through the membrane by describing the opposing...
0 Attempt 1 of 22> Potassium ions (K) move across a 9.0-nm-thick cell membrane from the inside to the outside. The potential inside the cell is -70.0 mV, and the potential outside is zero. What is the change in the electrical potential energy AU of the potassium ions as they move across the membrane? AUelectric =1 1.214 ×10-20
Under certain circumstances, potassium ions (K") in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is -80.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: 1.36 x10 Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions...
Under certain circumstances, potassium ions (K+) in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is-80.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions move from the...
Under certain circumstances, potassium ions (K) in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is -70.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions move from...
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