Presentation is loading. Please wait.

Presentation is loading. Please wait.

Homeostasis Mrs. Harlin. 1.2.1 Explain how homeostasis is maintained in the cell and within an organism in various environments (including temperature.

Published byRobert Martin Modified over 8 years ago

Similar presentations

Presentation on theme: "Homeostasis Mrs. Harlin. 1.2.1 Explain how homeostasis is maintained in the cell and within an organism in various environments (including temperature."— Presentation transcript:

1 Homeostasis Mrs. Harlin

2 1.2.1 Explain how homeostasis is maintained in the cell and within an organism in various environments (including temperature and pH).

3 Homeostasis Homeostasis is a state of maintaining an internal balance within cells. Cells use buffers to regulate cell pH. Cells respond to maintain temperature, glucose levels, and water balance.

4 Plasma Membrane The plasma membrane is responsible for maintaining homeostasis.

5 1. Passive Transport Requires no energy to move across a membrane. Goes with the concentration gradient.

6 Diffusion The movement of a substance from an area of high concentration to an area of low concentration.

7 Diffusion http://highered.mcgraw- hill.com/sites/0072495855/student_view0/chapter2/a nimation__how_diffusion_works.html

8 Osmosis Diffusion of water across a selectively permeable membrane.

9 Osmosis http://highered.mcgraw- hill.com/sites/0072495855/student_view0/chapter2/a nimation__how_osmosis_works.html

10 Scenario 1 If the concentration of substances in the solution is the same as inside the cell. Water constantly moves in and out of the cell. No shape change. Equilibrium is reached.

11 Scenario 2 Higher concentration inside the cell. Water moves IN the cell in attempt to reduce the concentration- swelling Animal cells may burst if too much water comes in! Called lysis. Plant cells will only become more and more firm.

12 Scenario 3 Higher concentration outside the cell than inside. Water will move OUT in attempt to reduce the outside concentration. Cells will shrivel and shrink. Plants will wilt. Ex: When you put salt on a slug, it shrinks and dies.

13

14

15

16

17

18 2. Active Transport Requires energy. Uses the carrier proteins to change shape in order pass a particle. Substances can either go with or against the concentration gradient. Examples- Endocytosis, exocytosis, Sodium-Potassium Pump

19 Sodium-Potassium Pump http://highered.mcgraw- hill.com/sites/0072495855/student_view0/chapter2/a nimation__how_the_sodium_potassium_pump_works.html

20 Facilitated Diffusion Type of passive or active transport across a membrane with using a transport protein.

21

Download ppt "Homeostasis Mrs. Harlin. 1.2.1 Explain how homeostasis is maintained in the cell and within an organism in various environments (including temperature."

Similar presentations

Cellular Transport.

Cellular Transport.
Chapter 4 Notes Cell Physiology Biology Hamilton Science Department.

Chapter 4 Notes Cell Physiology Biology Hamilton Science Department.
Cell Membrane (Transport) Notes

Cell Membrane (Transport) Notes
Agenda 10/27 Cell Membrane and Homeostasis 2.1 Relate cell parts/organelles (plasma membrane ) to their functions. Explain the role of cell membranes.

Agenda 10/27 Cell Membrane and Homeostasis 2.1 Relate cell parts/organelles (plasma membrane ) to their functions. Explain the role of cell membranes.
Osmosis.  Energy requirements?  No energy required  Modes of passive transport?  Diffusion through cell membrane  The movement of a substance from.

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

Maintaining Homeostasis
Osmosis.

Osmosis.
Movement of particles across the cell membrane without using energy

Movement of particles across the cell membrane without using energy
Cells and Their Environment

Cells and Their Environment
Homeostasis and Cell Transport

Homeostasis and Cell Transport
Chapter 7.3 Cell Transport

Chapter 7.3 Cell Transport
Objectives 7.3 Cell Transport -Describe passive transport. -Describe active transport.

Objectives 7.3 Cell Transport -Describe passive transport. -Describe active transport.
THE CELL AND ITS ENVIRONMENT. HOMEOSTASIS Homeostasis- “ steady state” or balance cells constantly seek homeostasis The Cell Membrane is responsible for.

THE CELL AND ITS ENVIRONMENT. HOMEOSTASIS Homeostasis- “ steady state” or balance cells constantly seek homeostasis The Cell Membrane is responsible for.
Cellular Transport– Maintaining homeostasis

Cellular Transport– Maintaining homeostasis
CH 8: Cellular Transport

CH 8: Cellular Transport
Cellular Transport Unit 5. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration to an area.

Cellular Transport Unit 5. Passive Transport  Does not use energy 1. Diffusion Movement of particles from an area of higher concentration to an area.
Chapter 7-3: Cell Transport. Explain what is meant by the term selective permeability. Compare and contrast passive and active transport. Daily Objectives.

Chapter 7-3: Cell Transport. Explain what is meant by the term selective permeability. Compare and contrast passive and active transport. Daily Objectives.
QOD: How is a receptor different from a recognition protein? LG: Understand how cells maintain homeostasis by explaining how different environmental conditions.

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

Osmosis, Diffusion, Active Transport
Movement of materials *Diffusion *Osmosis *Passive/Active transport.

Movement of materials *Diffusion *Osmosis *Passive/Active transport.

Similar presentations

Ads by Google