Introduction to... Cell Transport.

Slides:

Advertisements

Similar presentations

Substances cross the cell membrane without the cell expending energy

Advertisements

Section Objectives Explain how the processes of diffusion, passive transport, and active transport occur and why they are important to cells. Predict.

Plant and Animal Cell Structures

Osmosis.  Energy requirements?  No energy required  Modes of passive transport?  Diffusion through cell membrane  The movement of a substance from.

Movement of particles across the cell membrane without using energy

Chapter 7.3 Cell Transport

Diffusion Movement of molecules from areas of high concentration to areas of lower concentration.

Cell Transport Osmosis and Diffusion.  Particles in constant motion  Run into each other and randomly spread out  Particles move from an area of high.

Facilitated Diffusion Active Transport

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.

Diffusion The movement of molecules from an area of high concentration to an area of low. concentration.

PASSIVE TRANSPORT Movement of molecules across a membrane that requires no energy and always occurs down a concentration gradient Types of passive transport.

TRANSPORT THROUGH CELL MEMBRANES Diffusion and Osmosis.

OSMOSIS & TONICITY SEC 4.3 PG OSMOSIS: -a special case of diffusion involving water -water molecules move across a selectively permeable.

Cellular Transport Unit 5. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration to an area.

QOD: How is a receptor different from a recognition protein? LG: Understand how cells maintain homeostasis by explaining how different environmental conditions.

Diffusion and Osmosis. Passive Transport Passive transport- movement of molecules across a cell membrane without energy input Refresh: Solute Object being.

Section 7-3 cont. Cellular Transport. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration.

Cell Membrane Function Part I. How does the membrane control what enters or leaves the cell? Passive transport (without energy input) -Diffusion -Facilitated.

Movement of Materials Through The Cell Membrane For a cell to maintain its internal environment, (i.e., achieve homeostasis) it has to be selective in.

Passive Transport transport of molecules across the cell membrane that does not require energy! 3 Types: 3 Types: 1) Diffusion 2) Osmosis 3) Facilitated.

Transportation of Molecules. Cellular Transport Carbohydrate Chain Lipid Bilayer.

PASSIVE TRANSPORT One way cells maintain homeostasis is by controlling the movement of substances across their cell membrane. Cells want to reach “equilibrium”.

Diffusion and Osmosis Chapter 3, Section 4 Of your textbook.

You should be able to: Define osmosis & diffusion. Determine why do we need to regulate osmosis. Identify what controls osmosis. Distinguish between a.

Cell Transport. Diffusion The cytoplasm is a “solution” of many substances in water. Concentration=mass/volume Diffusion is the process by which molecules.

Section 3.4 DIFFUSION AND OSMOSIS. I. Diffusion and osmosis are types of passive transport A. Passive Transport  the movement of molecules across a cell.

Membranes regulate the traffic of molecules Ch. 6.3.

Diffusion and Osmosis Please take notes on page 71.

CELL TRANSPORT CONT pp

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

Why is the cell membrane so important?

Cellular Transport Notes: Osmosis and Tonicity

Cell Processes: Diffusion and Osmosis.

Osmosis & Cell Transport

Chapter 7-3 Notes Part 2 Types of Transport.

Passive Transport: Diffusion & Osmosis 3.4

Unit 3 “Movement Through Cell”

Section 4 Cellular Transport

Active and Passive Transport

Diffusion and Osmosis.

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

Cellular transport How are cells able to control what enters and what leaves the cell while maintaining homeostasis?

Movement across the Plasma Membrane

Diffusion Vs. Osmosis Biology.

Cellular Transport Section 7-4.

Tonicity Isotonic Hypertonic Hypotonic

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

Passive Transport - Osmosis

Section Objectives Predict the movement of water and other molecules across selectively permeable membranes. (SPI ) Compare and contrast.

Cellular Transportation

CELL TRANSPORT Cell membrane is semipermeable- allows certain things in, keeps certain things out Some molecules can pass right through small spaces in.

BIOLOGY Unit 2 Notes: Cell Membrane Transport

Add peripheral proteins to your “Fluid Mosaic Structure”

Cell Transport 7.3.

Passive = not active (no energy) Transport = moving

Movement of particles across the cell membrane without using energy

Cellular Transport 7.4.

Cellular transport How are cells able to control what enters and what leaves the cell while maintaining homeostasis?

Movement of particles across the cell membrane without using energy

Osmosis And Diffusion.

Cellular Transport Notes

Osmosis, Diffusion, and Facilitated Diffusion

Substances cross the cell membrane without the cell expending energy

BELLWORK What are the three organelles that only plants have?

Passive Transport Unit 2 Cytology.

Movement of particles across the cell membrane without using energy

Notes: Movement of Material across the Cell Membrane Passive Transport

Diffusion and Osmosis.

Presentation transcript:

Introduction to... Cell Transport

Semi-Permeable Membrane The cell membrane is semi-permeable Semi-permeable-only certain things can pass through (permeate) it Smaller molecules can pass through. Larger molecules and charged molecules cannot.

Passive vs. Active Transport PASSIVE= **No energy (ATP) needed for movement of certain particles across the membrane in/out of cell. Particles (molecules and ions) move from HIGH to LOW concentration. “Paddling with the current.” Types of passive transport Diffusion Osmosis Passive facilitated diffusion

Which container has the highest concentration of solutes?

Diffusion Move from high to low concentration Occurs until equilibrium is reached. PASSIVE TRANSPORT, SO NO ENERGY REQUIRED FOR PARTICLES TO DIFFUSE!!!

Osmosis Osmosis-diffusion of water PASSIVE, SO NO ENERGY REQUIRED TO DO THIS! Water can go through the semi-permeable cell membrane. High  low Osmosis animation

Hypertonic Environments Osmosis can occur with water going into OR out of the cell, depending on what type of environment the cell is in. Hyper= above/higher Hypertonic- the cell is in a higher solute concentration i.e. saltwater Osmosis- water moves OUT of cell in this environment (highlow). Shrivel and die.

Hypotonic Environments Hypo = under/lower Hypotonic- the cell is in a lower solute concentration i.e. pure water Osmosis- water will move INTO cell in this environment (highlow) Swells with water and bursts. Cell wall prevents plant cells from bursting—like a water balloon in a box

Isotonic Environments Iso = same/equal Isotonic cell environment- equal solute concentration inside and outside the cell i.e. pure blood Water flow in = water flow out Cells remain the same

100% Water, 0% Salt Pure Water 96% Water, 4% salt Concentrated Saltwater 100% Water, 0% Salt Pure Water 98% Water, 2% Salt Blood

Passive Facilitated Diffusion NO ENERGY (ATP) NEEDED! PASSIVE! Some particles are too large to pass through the membrane. Special proteins come to the rescue