Cell Membrane Structure and Function. Hot Seat

Similar documents
Explain how the structure of the plasma membrane allows material to move through. Explain the processes of Passive Transport and Active Transport.

The Cell Membrane. Why cells must control materials. Living cells must maintain homeostasis for survival.

Cellular Transport Notes

= only some molecules can get in or out of the cell. allow substances (other than lipids) in and out

WEDNESDAY 10/18/17. Why is the cell/plasma membrane important? What is the cell/plasma membrane made of? Label the cell membrane on your notes.

Unit 3 : Homeostasis and Cell Transport

Chapter 5 Homeostasis and Cell Transport

Chapter 8

CELL TRANSPORT and THE PLASMA MEMBRANE. SB1d. Explain the impact of water on life processes (i.e., osmosis, diffusion).

Review: Cellular Transport

Chapter 7-3 Cell Boundaries

Cellular Transport Notes

HOMEOSTASIS and CELL TRANSPORT. Chapter 5

Ch3: Cellular Transport Review KEY

STATION 4: TONICITY due to OSMOSIS / Turgor Pressure in Plants

Movement Through the Cell Membrane

Controlled via the Cell Membrane

Cellular Transport Worksheet

Cell Boundaries. Chapter 7.3 Strand: B2.5h

What is the function of the cell membrane?

Diffusion, Osmosis and Active Transport

Passive and Active transport across a cell membrane REVIEW MEMBRANE TRANSPORT

Cell Membrane (Transport) Notes

BELLRINGER DAY In which types of cell is a cell membrane located? 2. What is the function of the cell membrane?

Unit 1 Matter & Energy for Life

Equilibrium when two areas have the same concentration or are filled evenly

7.3 Cell Boundaries. Regents Biology. Originally prepared by Kim B. Foglia. Revised and adapted by Nhan A. Pham

PASSIVE TRANSPORT. Diffusion Facilitative Diffusion diffusion with the help of transport proteins Osmosis diffusion of water

CELL MEMBRANE & CELL TRANSPORT

Cellular Transport Notes. Ch. 7.3

FIGURE A. The phosphate end of the molecule is polar (charged) and hydrophilic (attracted to water).

The Cell Membrane AP Biology

Movement across the Cell Membrane

II. Active Transport (move molecules against conc. gradient - cell must expend energy) (uses carrier proteins)

Biology. Membranes.

Topic 3: Movement of substances across cell membrane

Ch. 5 Homeostasis & Cell Transport

Cellular Transport. Biology Honors

Diffusion & Osmosis - Exercise 4

BIOLOGY 12 - Cell Membrane and Cell Wall Function: Chapter Notes

CELL BOUNDARIES. Cells create boundaries through: Cell Membranes made of the phospholipid bilayer Cell Walls made of cellulose in plants

Biology Cell Unit Homework Packet #3

Cellular Transport. 1. A potato core was placed in a beaker of water as shown in the figure below.

Cell Membranes & Movement Across Them

Cell Membranes & Movement Across Them

Structure and Function

Chapter 3.4 & 3.5 Cell Transport (Osmosis and Diffusion) = only some molecules can get in or out of the cell

Warm Up 12/06/2018. In a Solution of Salt Water, which substance acts as the Solvent and which substance acts as the Solute?

Maintained by plasma membrane controlling what enters & leaves the cell

Cells and Their Environment Chapter 8. Cell Membrane Section 1

Unit 3: Cellular Processes. 1. SEPARTION & PROTECTION: the contents of the cell from the. 2. TRANSPORT: the transport of in and out of the cell

Plasma Membrane Structure and Function

Passive Transport. Does not expend cellular energy for the movement to take place. Ex-rolling down a hill

Homeostasis, Transport & The Cell Membrane. Chapter 4-2 (pg 73 75) Chapter 5

Chapter 7 Cell Structure and Function. Chapter 7, Section 3 Cell Boundaries and Transport

The Cell Membrane. Also known as the Plasma Membrane

Ch 4 Cells & Their Environment

Cell Structure and Function. Cell Membrane and Osmosis

9/20/2016 CHAPTER 7 LECTURE NOTES. Section Objectives. Explain how a cell s plasma membrane functions.

Each cell has its own border, which separates the cell from its surroundings and also determines what comes in and what goes out.

Biology, Friday, September 29

DIFFUSON AND OSMOSIS INTRODUCTION diffusion concentration gradient. net osmosis water potential active transport

Chapter 3: Exchanging Materials with the Environment. Cellular Transport Transport across the Membrane

Membranes & Enzymes. Practice Questions. Slide 1 / 91. Slide 2 / 91. Slide 3 / 91

Cell Membranes & Movement Across Them

Plasma Membrane Function

Cell Transport. Movement of molecules

Passive Cellular Transport. Unit 2 Lesson 4

Membrane Structure and Function - 1

Cell Membrane Diagram

Plasma Membrane & Movement of Materials in Cells

UNIT 4 CELL BOUNDARIES AND TRANSPORT. Unit 4 test: October 16, 2018

Section 4: Cellular Transport. Cellular transport moves substances within the cell and moves substances into and out of the cell.

Cell membrane & Transport. Dr. Ali Ebneshahidi Ebneshahidi

BIOLOGY 12 - Cell Membrane and Cell Wall Function: Chapter Notes

WAYS MOLECULES MOVE. Chapter 7-3.

BIOLOGY 12 - Cell Membrane and Cell Wall Function: Chapter Notes

Movement across the Cell Membrane (Ch. 7.3)

A molecule that can pass though the cell membrane.

Movement of substances across the cell membrane

Cell Transport Unit Test

Cell Processes. Chapter 3. Learning Target 3/15/16. l I can. l 1)Explain the difference between diffusion and osmosis.

FLEXIBLE, SELECTIVELY PERMEABLE boundary that helps control what enters and leaves the cell. Composed of: a. Two layers of PHOSPHOLIPIDS molecules

Chapter 8 Cells and Their Environment

CH 7.2 & 7.4 Biology

Plasma Membrane Structure and Function

Movement across the Membrane

Lab #6: Cellular Transport Mechanisms Lab

Constant Motion of Molecules. Kinetic Theory of Matter Molecules move randomly and bump into each other and other barriers

Membrane structure & function

1. How many fatty acid molecules combine with a glycerol to form a phospholipid molecule? A. 1 B. 2 C. 3 D. 4

Cell (plasma) membrane

The Plasma Membrane - Gateway to the Cell

Cell Structure and Function Exam Study Guide Part I

Cells & Transport. Chapter 7.1, 7.2, & 7.4

Passive Transport: Practice Problems PAP BIOLOGY

Unit 7: Topic 7.4 Cellular Transport

The Plasma Membrane - Gateway to the Cell

1. I can explain the structure of ATP and how it is used to store energy.

Cell Membranes & Movement Across Them

Transcription:

Cell Membrane Structure and Function Hot Seat

Rules A. You are competing against classmates in your row (across the classroom). The hot seat is the seat in each row closest to the outside windows. B. Your answer must be written and you must stop writing when the teacher says, pencils down C. After hearing the correct answer you will check your answer with the person to your left and the person to your right. D. If your answer is correct and the person to your right answered incorrectly you move into their seat (towards the hot seat) and they will move into yours. E. If your answer is incorrect and the person to your left answered correctly, you move into their seat (away from the hot seat) and they will move into yours. F. Remember you may only move one seat at a time! If you get it right and two people in front of your get it wrong you still can only move one seat!

Which cell structure helps the cell maintain homeostasis by controlling what enters and leaves the cell? A. Cell Membrane

Which section of the cell membrane is hydrophobic? A. The tails of the phospholipids Hydrophilic (polar) Hydrophobic (non-polar)

Which section(s) of the cell membrane are hydrophilic? A. The heads of the phospholipids Hydrophilic (polar) Hydrophobic (non-polar)

What is the difference between a solute and a solvent? A. A solute is the thing being dissolved and a solvent is the liquid doing the dissolving. B. Remember water is the universal solvent!

Which of the following would be an example of osmosis? A. The smell of ammonia spreading through the room. B. The shriveling of a snail after salt is poured on it C. Water being poured into a glass D. The absorption of water by a bathroom sponge.

A state of biological balance maintained by living organisms is called.. A. Exocytosis B. Osmosis C. Homeostasis D. cytolysis

Does the picture demonstrate passive or active transport?

Movement of substances across the membrane without the use of cellular energy is termed A. Active transport B. Carrier transport C. Passive transport D. Protein transport

Will the cell shrivel, swell, or stay the same? 95% H2O 85% H2O

What must a virus do to reproduce? A. Invade a host cell.

Which of the following supports the picture shown below? A. The concentration of solute in the cell was higher than in the solution so water entered the cell. B. The concentration of solute in the cell was lower than in the solution so water left the cell. C. The concentration of solute in the cell was higher than in the solution so water left the cell. D. The concentration of solute in the cell was lower than in the solute was water entered the cell.

Will the cell shrivel, swell, or stay the same? 85% sugar 95% sugar

Which of the following supports the picture shown below? A. The concentration of solute in the cell was higher than in the solution so water entered the cell. B. The concentration of solute in the cell was lower than in the solution so water left the cell. C. The concentration of solute in the cell was higher than in the solution so water left the cell. D. The concentration of solute in the cell was lower than in the solute was water entered the cell.

If the cell below has a glucose concentration of 20 ppm, which of the following concentrations of the solution would cause the cell to swell? A. 10 ppm B. 20 ppm C. 30 ppm D. 40 ppm

Will the cell shrivel, swell, or stay the same? 84% sugar 96% sugar

Will the cell shrivel, swell, or stay the same? 87% sugar 87% sugar

If the glucose needs to be transported into the cell, will it do so by passive or active transport? A. It s active transport because the glucose is moving against the concentration gradient 52 ppm glucose 78 ppm glucose

Dialysis is the process by which an artificial kidney machine removes waste products from a patients blood. The dialysis membrane has openings that allow salts and other wastes dissolved in the blood to pass through without expending any energy. This is an example of (passive / active) transport. A. Passive Transport

Why do grocery stores spray their produce with water? A. Produce swells!

Why can t you drink saltwater? A. Your cells have a higher concentration of water than the saltwater. Through osmosis water leaves your cells, causing them to shrivel

Which of the following correctly explains the picture? A. The concentration of solute in the cell was higher than in the solution so water entered the cell. B. The concentration of solute in the cell was lower than in the solution so water left the cell. C. The concentration of solute in the cell was equal to the concentration in the solution so water is moved into the cell D. The concentration of solute in the cell was equal to the concentration in the solute so the cell is at equilibrium.

Inside bag A is a 50% glucose solution and inside bag B is a 30% glucose solution. Both bags are put into beakers containing 100% water. A.A) Bag A will swell. B.B) Bag B will swell. C.C) Both bags will swell. 50% 30% D.D) Both bags will shrivel E.E) Both bags will remain the same. 100%

Which of the following correctly explains the picture? A. The concentration of solute in the cell was higher than in the solution so water entered the cell. B. The concentration of solute in the cell was lower than in the solution so water left the cell. C. The concentration of solute in the cell was higher than in the solution so water left the cell. D. The concentration of solute in the cell was lower than in the solution so water entered the cell.

What relationship between surface area and volume must organisms achieve to ensure efficient delivery of nutrients A. keep surface area and volume equal B. maximize surface area and minimize volume C. minimize surface area and maximize volume D. none of these

Which of the following correctly explains the picture? A. The concentration of solute in the cell was higher than in the solution so water entered the cell. B. The concentration of solute in the cell was lower than in the solution so water left the cell. C. The concentration of solute in the cell was higher than in the solution so water left the cell. D. The concentration of solute in the cell was lower than in the solution so water entered the cell.

Is the concentration of the solute in the solution greater than, less than, or equal to the concentration of the solute in the cytoplasm of the cell? A. The concentration of solute in the solution is greater than the concentration of solute in the cytoplasm of the cell.

Chamber A contains 40% helium and Chamber B contains 20% helium. The chambers are connected by a tube the molecules are free to cross. Which of the following will occur? A. A) Some helium will move from Chamber A to B B. B) Some helium will move from Chamber B to A C. C) Helium will remain concentrated in Chamber A D. D) All of the helium will move to Chamber B Chamber A 40% Helium Chamber B 20% Helium

Cells must have ways to maintain homeostasis. Which is an example of ways cells can do this? A. A) Plant cells have a cell wall to keep from bursting B. B) Fresh water single-celled animals constantly pump water out C. C) Eggs have shells to keep them from dehydrating D. D) All of the above are examples

Which cell has the largest surface area to volume ratio?

Predict the concentration of solute on each side of the membrane after 24 hours A. Equal concentration on both sides

Identify one difference and one similarity between facilitated diffusion and active transport? Facilitated Diffusion A. Use proteins B. No Energy C. High Conc. To Low Conc. D. Both transport bigger molecules that can t cross through the phospholipids. Active Transport A. Use proteins B. Energy C. Low Conc. To High Conc. D. Both transport bigger molecules that can t cross through the phospholipids.

2024 © healthdocbox.com Privacy Policy | Terms of Service | Feedback