**Educational Transcript: Membrane Diffusion and Osmosis****Section Overview:**In this section, we explore the concept of diffusion and osmosis across two membranes using a simulation.**Visual Aid Description:**- A screenshot from a membrane simulator video demonstrating diffusion and osmosis.- The screen shows a division with two different areas separated by membranes.- Green spheres represent glucose molecules, and blue dots represent water molecules.**Instructions:**Watch the video clip to understand how molecules move across the membranes and answer the following question:"In the scenario shown above, the green spheres are glucose molecules, and the blue dots are water molecules. In terms of concentration, will this solution reach equilibrium?"**Video Controls:**- Play/Pause button for the video is available.- A slider controls the "Pore Size" in the simulation, influencing the passage of molecules.- The video includes tracing options to monitor individual molecules.Understanding these concepts is crucial for comprehending how substances move in biological systems.

Diffusion is very important process of nature where substances present in excess amount will move…

Answered: A membrane simulator is shown below.…

Biochemistry

9th Edition

ISBN:9781319114671

Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Chapter1: Biochemistry: An Evolving Science

Section: Chapter Questions

Problem 1P

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Answer the following questions based on the graph: a) Which of the two molecules that are the same size will passively diffuse across a cell membrane quicker? Why? [2 A] b) Which type of transport method would glucose use? Why? [2 A] Figure 1: Relative Sizes of Molecules Diffusing Across a Cell Membrane Substance Tested water oxygen glycerol glucose alcohol carbon dioxide Graph 50 100 Relative Size of Molecules 150 200
What is the role of lysozyme and a low ionic strength extraction buffer? Select all that apply. Cells absorb water from a low ionic strength extraction buffer, by osmosis, swell and lyse, releasing their contents Lysozyme breaks down bonds in the cellulose cell wall of plants, weakening the structure Cells release water into a low ionic strength extraction buffer by osmosis, shrink and lyse, releasing their contents Lysozyme is an enzyme found in lysosomes in cells Lysozyme breaks down bonds in the peptidoglycan cell wall of bacteria, weakening the structure Lysozyme is an antibiotic found in tears, saliva, human milk and mucus.
Passive transport: What are they and examples for each 1. Mechanical 2. Voltage 3. Ligand:
Structure B is a Extracellular fluid B Nh Cytoplasm transport protein solute phospholipis water molecule low solvent [
Describe TWO (2) methods transport of solutes in the systems with the aid of diagram I want a clear solution for me to understand
How do I solve this problem? I tried everything, I need the answer.
ell Transport What is shown in the picture below? Plasma membrane C Extracellular fluid -Sodium Na Cytoplasm 11,819 10000 www 0 ATP Phosphate ADP #13 Potassium K* mo 00 20 N Na K" Concentration
Please see the picture below
The plasma membrane has a hydrophobic interior due to the two present in each phospholipid found in the phospholipid bilayer of the cell membrane. The plasma membrane allows some molecules to cross but not all. Therefore, the plasma membrane is said to be Molecules that are nonpolar and hydrophobic will cross the membrane with ease by Does this process require energy? When molecules move across the plasma membrane by passive transport, they will move down or with the_ from an area of concentration to an area of. concentration. Polar, hydrophilic molecules and charged ions will move across the plasma membrane by the process of_ This does not require energy, but it does require a A special case of diffusion is known as which is the movement of water across the plasma membrane. If a cell is placed into a solution that is hypertonic compared to the inside of the cell, the cell would If a cell is placed into a hypotonic solution compared to the inside of the cell, the cell water. would…
What does the following schematic represent? Selectivity filter wwww mm Lipid bilayer MM Sensor Aqueous pore Channel protein O An ionic pump O An ion channel Gate An ion exchanger O A transmembrane protein

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