Passive Transport. Learning Objectives - explain what is meant by passive transport - compare diffusion and facilitated diffusion Identify the role of.

Slides:

Advertisements

Similar presentations

Structure and Function

Advertisements

4.1 Plasma Membrane Structure and Function

Chapter 5: Homeostasis and Cell Transport.  The steady – state physiological condition of the body of a cell.  Cell membranes help organisms maintain.

Cell Transport The movement of molecules can be either passive (no energy) or active (needs energy) depending upon the membrane structure and concentration.

Structure and Function

Movement of Molecules Revision. Movement across Membranes All cells must be able to take in and expel various substances across their membranes in order.

Diffusion. Solutions SolventSolvent – liquid SoluteSolute - solid that is dissolved SolutionSolution – liquid with dissolved substances SolubleSoluble.

Transport through cell membranes

Biochemistry Unit.  Cells need to import needed materials into the cell and to eliminate waste materials from the cell.  Nutrients like glucose, water,

2.4.1 Draw and label a diagram to show the structure of membranes (1).

L.O:define L.O: to define diffusion and facilitated diffusion state to state factors affecting diffusion Starter: Starter: Recap on Osmosis a) What would.

Transport through Cell Membranes. Cell Transport Cells use several methods of moving substances across the cell membrane. Sometimes they must acquire.

Cell Membrane. Cell membrane A gateway and a barrier for the cell. Controls what enters & exits A gateway and a barrier for the cell. Controls what enters.

1 Transport through cell membranes. 2  The phospholipid bilayer is a good barrier around cells, especially to water soluble molecules. However, for the.

AS Biology, Cell membranes and Transport 1 Transport through cell membranes.

By Monica 11C. Is the passive movement of molecules, atoms or ions along a concentration gradient, from a region of high concentration to a region of.

Chapter 4. Transport Across the Cell Membrane  Substances need to move into and out of the cell in order to maintain homeostasis  They can do this by.

Cell Transport Chapter 4. Framing Question: How does a cell transport materials across the cell membrane?

Exchanging Substances

By Ariffi Zaher. Active Transport o Active transport is the movement of a substance towards its concentration gradient such as from low concentration.

Passive vs. Active Transport. Passive Transport Does NOT require energy Moves substances from higher to lower concentration.

Modeling Diffusion, Facilitated Diffusion, and Active Transport.

Materials move across membranes because of concentration differences.

Unit 4 Part B – Cell Membrane and Cell Transport

Also known as the cell membrane – It is so fun!.  To regulate/control what enters and exits the cell. What types of things can get in and out of the.

Review for Cell Membrane Structure & Molecular Movement Quiz!

MOVEMENT OF SUBSTANCES DIFFUSION Learning Outcomes After completing this chapter, you will able to : Define diffusion as the movement of molecules from.

Movement of Substances In and Out of Cells. Cells need and take in many substances for their metabolism and optimum functioning…Examples?? As well as.

4.1 Plasma Membrane Structure and Function Regulates the entrance and exit of molecules into and out of the cell Phospholipid bilayer with embedded proteins.

AS Biology, Cell membranes and Transport 1 Transport through cell membranes.

Transport in and out of cells

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Structure and Function

Objective: You will be able to describe the structure and function of the components of the plasma membrane. Do Now: Read, “The cell membrane” on p. 182.

Plasma Membrane Chapter 7, pages December 2-6, 2016

Cellular Transport.

How Cells Exchange Molecules

Passive Transport.

Transport Across the Cell Membrane

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Active and Passive Transport

CELL MEMBRANES HELP ORGANISMS MAINTAIN HOMEOSTASIS BY CONTROLLING WHAT SUBSTANCES MAY ENTER OR LEAVE THE CELLS.

Homeostasis and CellTransport

Types of Transport Review

Diffusion, Osmosis, and Transport

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Passive Transport.

Transport through cell membranes

Into to Cellular Transport

Cell physiology.

Moving Cellular Material

They are SEMI-PERMEABLE Selectively Permeable

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Transport through cell membranes

Foundations in Biology

Cell Processes 7th 15.2 Cell Transport.

Cell Membrane Notes Page 11 of Unit 3 Folder

Cell Membrane Transportation

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Passive Transport.

Cell Transport.

Starter: Select the ions from this list:

Presentation transcript:

Passive Transport

Learning Objectives - explain what is meant by passive transport - compare diffusion and facilitated diffusion Identify the role of membrane proteins in transport Success Criteria Construct definitions of diffusion, facilitated diffusion and osmosis Create a comparison table Draw and annotate diagrams to show how the processes differ

Transport across the cell membrane All cells are surrounded by a partially-permeable membrane that controls what substances can enter and exit the cell. A cell needs to be able to import the substances it needs to survive, and to export waste materials and substances that are needed outside the cell. There are several methods by which substances (molecules and ions) can cross the cell membrane: diffusion osmosis active transport.

What is diffusion? Diffusion is the net movement of particles down a concentration gradient: from a region of high concentration to a region of low concentration. No metabolic energy is expended during diffusion so it is an example of passive transport. One example of diffusion is gas exchange across respiratory surfaces, such as the lungs of mammals and birds, and the gills of fish. net movement of particles

The rate of diffusion The rate of diffusion in a given direction across an exchange surface can be summarized by Fick’s law, which states that: rate of diffusion is proportional to: surface area × difference in conc. length of diffusion path (membrane thickness) Increasing the surface area across which the particles diffuse, or increasing the size of the concentration gradient will increase the rate of diffusion. Increasing the distance (or thickness of the membrane) over which diffusion takes place will decrease the rate.

What factors affect diffusion?

Cell membranes, polarity and diffusion Generally, the smaller and less polar a molecule, the easier and faster it will diffuse across a cell membrane. Small, non-polar molecules such as oxygen and carbon dioxide rapidly diffuse across a membrane. The non-polar, hydrophobic tails of phospholipid molecules in a cell membrane act as a barrier to most substances. Small, polar molecules, such as water and urea, also diffuse across, but much more slowly. Charged particles (ions) cannot diffuse across a membrane, even if they are very small.

Facilitated diffusion

Diffusion