Consider a biological membrane 10.0 nm thick. The diffusion
coefficient for potassium ions crossing this biological membrane is
1.00 X 10 -16 m2/s.
a) Draw a representation of the membrane and the diffusion of
potassium ions. b) Calculate the flow rate of potassium ions moving
across an area 250 nm by 250 nm, if the concentration difference
across the membrane is 0.500 mol/m3.
Consider a biological membrane 10.0 nm thick. The diffusion coefficient for potassium ions crossing this biological...
Consider the following hypothetical problem. Potassium ions have a concentration of 115 x 10-3 mol/liter inside the cell and 4.5 x 10-3 mol/liter outside the cell. The cell wall has a channel through which the potassium ions can travel and it is 25.0 nm in length and 4.00 nm in diameter. Take the diffusion coefficient of potassium to be 3.00 x 10-9 m2/s. A. What is the difference in concentration, Δc across the cell wall in molecules/m3? B. What is...
Consider the following hypothetical problem. Potassium ions have a concentration of 115 x 10-3mol/liter inside the cell and 4.5 x 10-3 mol/liter outside the cell. The cell wall has a channel through which the potassium ions can travel and it is 25.0 nm in length and 4.00 nm in diameter. Take the diffusion coefficient of potassium to be 3.00 x 10-9 m2/s. A)What is the difference in concentration, Δc across the cell wall in molecules/m3? B)What is the cross-sectional area...
Consider the following hypothetical problem. Potassium ions have a concentration of 115 x 10*3 molliter inside the cell and 4.5 x 10 mol/liter outside the cell. The cell wall has a channel through which the potassium ions can travel and it is 25.0 nm in length and 4.00 nm in diameter. Take the diffusion coefficient of potassium to be 3.00 x 109 m2ls. What is the difference in concentration, Δc across the cell wall in molecules/m3? molecules/m Submit Request Answer...
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?
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++ move across the 8.0-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. Assume that a potassium ion carries a charge of 1.602××10−19−19 C. Unit 3: Prelecture Problems Problems: Electric Potential & Capacitor Deadline: 100% until Sunday, January 27 at 11:59 PM ▼ Cumulative Problem 6 Under certain circumstances, potassium ions K+ move across the 8.0-nm-thick cell membrane from the inside...
An observer watches calcium ions (Ca+2) crossing a membrane, and measures a total current density of 256 mA/cm^2 (in the x direction). The particle flux generated by the electric field is 6 x 10^-6 mol/sec•cm^2. If the concentration gradient of calciun ions is 15 x 10^-3 mol/cm^4, what is the diffusion coefficient?
A differential nitrogen pressure exists across a 2-mm-thick steel furnace wall. After some time, steady-state diffusion of the nitrogen is established across the wall. Given that the nitrogen concentration on the high-pressure surface of the wall is 5 kg/m3kg/m3 and on the low-pressure surface is 0.3 kg/m3 , calculate the flow of nitrogen through the wall (in kg/m2.h) if the diffusion coefficient for nitrogen in this steel is 1.0 ×10−10m2/s at the furnace operating temperature. Express your answer to three...
reply ma as soon as possible 120 points total Due: October 23, 2019 Budget your time carefully TRUE OR FALSE (45 points - 3 points cach): Mark whether the statements as written are "true" or "false". If the statement is false, make minor changes to the statement so that the statement is true. The primary adverse health effect resulting from the disposal of mercury wastes into Minamata Bay was dysentery The flow regime in horizontal velocity grit chambers approaches continuous...