Give the electrical charge at Donnan equilibrium across a membrane that is permeable to a monovalent...

Calculate the Nernst Potential generated across a cell membrane that is selectively permeable to K+. Temperature...

Calculate the Nernst Potential generated across a cell membrane that is selectively permeable to K+. Temperature 27 deg C. K+ out = 62 mM. K+ in = 243 mM. Your answer must be expressed in mV (to the nearest mV) and you must include the units.

A cell membrane at 25C is found to be permeable to Ca2+ but not to anions,...

A cell membrane at 25C is found to be permeable to Ca2+ but not to anions, and analysis shows the inside concentration to be 0.100 M and the outside concentration to be 0.001 M in Ca2+ . What potential difference would exist across the membrane for Ca2+ to be in equilibrium at the stated concentrations?

A cell’s membrane is permeable to K+, Na+, and Cl─.    Use the following information to determine...

A cell’s membrane is permeable to K+, Na+, and Cl─.    Use the following information to determine the equilibrium potential of this cell.    Assume that the cell is at 37º C. K+ Na+ Cl─ Permeability (m/s) 100 1 1000 Outside Concentration (mM) 4.5 145 116 Inside Concentration (mM) 150 12 4.2             [mM = 0.001 Moles / liter.] 70.0     mV -14.3 mV -60.5 mV -88.3 mV

The net charge difference across the membrane, just like the charge difference across the plates of...

The net charge difference across the membrane, just like the charge difference across the plates of a capacitor, is what leads to the voltage across the membrane. How much excess charge (in picocoulombs, where 1 pc = 1x10-12 C) must lie on either side of the membrane of an axon of length 1 cm to provide this potential difference (0.07 V) across the membrane? You may consider that a net positive charge with this value lies just outside the axon...

Would there be an electrical potential across the inner membrane of the mitochondria when chemiosmosis is...

Would there be an electrical potential across the inner membrane of the mitochondria when chemiosmosis is active? Why or why not? If so, which compartment in the mitochondria would have a more positive charge?

Ions A and B in the Table below are both monovalent cations associated with a cell...

Ions A and B in the Table below are both monovalent cations associated with a cell with a membrane potential of -98 mV. Constants you may need to answer the questions associated with the Table are as follows: R = 0.002 kcal/mol o;     T = 310o;     F = 0.023 kcal/mol mV Ion ICF (mM) ECF (mM) A 14.5 96.8 B 105.6 3.2 What is Ion A’s equilibrium potential? (round to nearest whole number and give units) 2. What is the...

Ions A and B in the Table below are both monovalent cations associated with a cell...

Ions A and B in the Table below are both monovalent cations associated with a cell with a membrane potential of -98 mV. Constants you may need to answer the questions associated with the Table are as follows: R = 0.002 kcal/mol o;     T = 310o;     F = 0.023 kcal/mol mV Ion ICF (mM) ECF (mM) A 14.5 96.8 B 105.6 3.2 What is Ion A’s equilibrium potential? (round to nearest whole number and give units) _______________________________ What is the...

The net charge difference across the membrane, just like the charge difference across the plates of...

The net charge difference across the membrane, just like the charge difference across the plates of a capacitor, is what leads to the voltage across the membrane. How much excess charge (in picocoulombs, where 1 pc = 1x10-12 C) must lie on either side of the membrane of an axon of length 2 cm to provide this potential difference (0.07 V) across the membrane? You may consider that a net positive charge with this value lies just outside the axon...

Consider the transport of galactose across a semi-permeable membrane from the extracellular space ([galactose] = 2...

Consider the transport of galactose across a semi-permeable membrane from the extracellular space ([galactose] = 2 mM) to the cytosol ([galactose] = 10 mM) under biochemically standard conditions. (R = 0.08206 L atm/mol K = 8.314 J/mol × K) (15 pts.) If ATP hydrolysis liberates 30.5 kJ/mol at standard conditions, approximately how many grams of ATP (507.2 g/mol) would be required to transport 260 g of galactose from the extracellular space to the cytosol? the molecular weight for galactose is...

a concentration cell has Fe(NO3)2 on two sides of a semi permeable membrane. On one side,...

a concentration cell has Fe(NO3)2 on two sides of a semi permeable membrane. On one side, the iron nitrate concentration is 250 mM and on the other side the concentration is 25 uM. What is the electric potential generated by this cell? And which side is the "anode", and which side is the "cathode"?