3. •• BIO Predict/Calculate The Sodium Pump Living cells actively "pump" positive sodium ions (Na*) from inside the cell to outside the cell. This process is referred to as pumping because work must be done on the ions to move them from the negatively charged inner surface of the membrane to the positively charged outer sur- face. Given that the electric potential is 0.070 V higher outside the cell than inside the cell, and that the cell membrane is 0.10 µm thick, (a) calculate the work that must be done (in joules) to move one sodium ion from inside the cell to outside. (b) If the thick- ness of the cell membrane is increased, does your answer to part (a) increase, decrease, or stay the same? Explain. (It is estimated that as much as 20% of the energy we consume in a resting state is used in operating this “sodium pump.”)
3. •• BIO Predict/Calculate The Sodium Pump Living cells actively "pump" positive sodium ions (Na*) from inside the cell to outside the cell. This process is referred to as pumping because work must be done on the ions to move them from the negatively charged inner surface of the membrane to the positively charged outer sur- face. Given that the electric potential is 0.070 V higher outside the cell than inside the cell, and that the cell membrane is 0.10 µm thick, (a) calculate the work that must be done (in joules) to move one sodium ion from inside the cell to outside. (b) If the thick- ness of the cell membrane is increased, does your answer to part (a) increase, decrease, or stay the same? Explain. (It is estimated that as much as 20% of the energy we consume in a resting state is used in operating this “sodium pump.”)
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Transcribed Image Text:13. .. BIO Predict/Calculate The Sodium Pump Living cells actively
"pump" positive sodium ions (Na+) from inside the cell to outside
the cell. This process is referred to as pumping because work must
be done on the ions to move them from the negatively charged
inner surface of the membrane to the positively charged outer sur-
face. Given that the electric potential is 0.070 V higher outside the
cell than inside the cell, and that the cell membrane is 0.10 μm
thick, (a) calculate the work that must be done (in joules) to move
one sodium ion from inside the cell to outside. (b) If the thick-
ness of the cell membrane is increased, does your answer to part (a)
increase, decrease, or stay the same? Explain. (It is estimated that
as much as 20% of the energy we consume in a resting state is used
in operating this "sodium pump.")
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