When heart muscle is treated with external lithium ions, the ions pass through the cell membrane...

Consider a cell at steady state. The intracellular Cl- concentration is 10 mM, while the extracellular...

Consider a cell at steady state. The intracellular Cl- concentration is 10 mM, while the extracellular Cl- concentration is 108 mM when the chloride channels are closed. The electrical potential inside the cell is -65 mV, and the external potential is 0 mV. Calculate the electrochemical potential difference across the membrane. Assume R = 8.3144 J/mol K and T = 37C. When the chloride channels open, in which direction will the Cl- ions move?

What is the equilibrium potential of chloride ions in a mammalian neuron when the ion concentration...

What is the equilibrium potential of chloride ions in a mammalian neuron when the ion concentration inside the cell is 10 mM and their concentration outside the cell is 140 mM? Give your answer in mV, rounded to the nearest hundredth.

The concentration of K+ ions in the intracellular fluid of a nerve cell is approximately 361.669...

The concentration of K+ ions in the intracellular fluid of a nerve cell is approximately 361.669 mM, but in the extracellular fluid the K+ concentration is 20.15 mM. Given that the electric potential difference inside and outside the cell is given by φ (inside) - φ(outside) = –70.0 mV, calculate the Gibbs energy change (to the zeroth decimal place in Joules) for the transfer of 1.00 mol of K+ ion against the concentration gradient at 37.8oC.

5. (1pt) Glucose is pumped into an animal cell by a symporter powered by simultaneous entry...

5. (1pt) Glucose is pumped into an animal cell by a symporter powered by simultaneous entry of Na+ . What is the ratio of glucose concentration outside and inside cells under typical cellular conditions? Assume that external [Na+ ] = 140 mM, internal [Na+ ] = 12 mM and a membrane potential = −60 mV.

Question 4 (3 pts) You are patch-clamping a cell. While holding the neuron at different membrane...

Question 4 (3 pts) You are patch-clamping a cell. While holding the neuron at different membrane potentials, you observed the current recordings below. (1 pt) How many channels does your patch likely contain? (2 pt) Given the recordings above, what is the reversal potential for the channel? Explain your reasoning in 1 sentence. b.(2 pt) Is there any net flow of ions at the resting potential in part ‘b’ above? Why or why not? c.(2 pt) You discover that there...

Which statement below best explains why ion movement through channels generates a membrane potential but ion...

Which statement below best explains why ion movement through channels generates a membrane potential but ion movement generated by the Na+/K+ pump does not? The concentration of K+ is higher inside the cell, while the concentration of Na+ is higher outside. The slow action of the pump creates a small change in the membrane potential. Ions move rapidly through ion channels, specialized pores in the membrane that allow ions to diffuse back and forth, carrying charge. The net movement of...

1. What is the resistance of a NichromeTM wire at 0.0 ∘C∘C if its resistance is...

1. What is the resistance of a NichromeTM wire at 0.0 ∘C∘C if its resistance is 106.9 ΩΩ at 12.5 ∘C∘C? The temperature coefficient of resistivity for NichromeTM is 4.00×10−4 (∘C)−1(∘C)−1 . Enter your answer with four significant figures. 2. A heart defibrillator is used to enable the heart to start beating if it has stopped. This is done by passing a large current of 12 AA through the body at 30 VV for a very short time, usually about...

The Standard Hydrogen Electrode (S.H.E.) consists of H2 gas bubbled through a solution of H+ ions;...

The Standard Hydrogen Electrode (S.H.E.) consists of H2 gas bubbled through a solution of H+ ions; which of the following conditions must be met to give E0 = 0.00V, as part of the S.H.E.? I. Temperature of cell is 298 K II. Pressure of the Hydrogen gas is 1 atm III. Concentration of H+ is 1.0 moldm-3 Select one: a. I and II only b. I and III only c. I only d. I, II and III Use the data...

QUESTION 1 This source of Calcium ions provides 80-90% of the Ca++ needed for cardiac excitation...

QUESTION 1 This source of Calcium ions provides 80-90% of the Ca++ needed for cardiac excitation contraction coupling: a. the Nucleus b. the Extracellular Fluid and the fluid inside T-tubules c. the Mitochondria d. the Sarcoplasmic Reticulum QUESTION 2 During Isovolumetric Contraction, which one of the following statements is FALSE a. The ventricle is in SYSTOLE b. The Left-AV valve is CLOSED c. The Aortic Valve is CLOSED d. The Ventricular Pressure is Increasing e. The Ventricle is in DIASTOLE...

1 In the absence of oxygen, cells consume glucose at a high, steady rate. When oxygen...

1 In the absence of oxygen, cells consume glucose at a high, steady rate. When oxygen is added, glucose consumption drops precipitously and is then maintained at the lower rate. Why is glucose consumed at a high rate in the absence of oxygen and at a low rate in its presence? 2 In the following diagram showing the distribution of thermal energy in a population of substrate molecules, the energy thresholds indicated by numbers represent ... Energy per molecule Number...