Return to search

Unit 3: Transport In and Out of the Cell

Unit 3: Movement in and out of Cells
Diffusion, Osmosis and Active Transport 
1 / 36
next
Slide 1: Slide
BiologieMiddelbare schoolvwoLeerjaar 4

This lesson contains 36 slides, with interactive quizzes, text slides and 1 video.

time-iconLesson duration is: 30 min

Items in this lesson

Unit 3: Movement in and out of Cells
Diffusion, Osmosis and Active Transport 

Slide 1 - Slide

This item has no instructions

Let's check what you can remember about the CELLS from last lesson?
Two types:
Prokaryotic
Eukaryotic

Plant and animal are Eukaryotic
Bacteria are Prokaryotic

Slide 2 - Slide

This item has no instructions

Mitochondria
Respiration takes place here. Generating energy for cellular activities.
Nucleus
Controls the functions of the cell. Contains the D.N.A
Cytoplasm
Where cellular reactions take place. 
Ribosomes
This is the site of protein synthesis.
Cell membrane
This controls the movement of substances in and out of the cell.
Cell wall
This provides structure and protection for the cell. Present in plant and bacterial cells.
Plasmid
This is an additonal circular piece of DNA that can transfer genetic material from one cell to another. 
String of DNA
DNA is not contained in a nucleus but is wound in a loop. 

Slide 3 - Slide

This item has no instructions

Plant cells look a bit different to animal cells.
They have all the same parts (organelles) as animal cells, plus 3 more.

This is because plants do something we cannot. They make their own food.

Slide 4 - Slide

This item has no instructions

Today we are going to focus on the cell membrane.
This controls the movement of substances in and out of the cell.

How?

Slide 5 - Slide

This item has no instructions

Learning goals Membrane transport
Membrane Transport
  • You can explain how a membrane is built
  • You can explain that a membrane is (semi )permeable
Diffusion and Osmosis
  • You can explain how, by means of diffusion and osmosis, compounds can pass through the cell membrane
  • You can explain what consequences this transport might have for cells

Slide 6 - Slide

This item has no instructions

Key words
Cell membrane transport
Permeable
Hydrophilic
Hydrophobic
Aquaporine
Diffusion
Facilitated diffusion
Channel protein
Carrier protein
(Semi) permeable
Osmosis


Slide 7 - Slide

This item has no instructions

5

Slide 8 - Video

This item has no instructions

01:51
What molecules can pass the cell membrane without any difficulty?
A
charged particles / ions
B
glucose
C
water
D
oxygen and carbondioxide

Slide 9 - Quiz

This item has no instructions

02:14
'With the concentration gradient' means from...
A
a higher concentration to a lower
B
a lower concentration to a higher

Slide 10 - Quiz

This item has no instructions

04:51
In what organelle is the energy-rich ATP generated?

Slide 11 - Open question

This item has no instructions

06:52
Pancreatic cells create enzymes. When these proteins are completed, they need to be excreted.

How do these enzymes leave the pancreatic cells?
A
simple diffusion
B
facilitated diffusion
C
active transport
D
exocytosis

Slide 12 - Quiz

This item has no instructions

04:51
Active transport requires...

Slide 13 - Open question

This item has no instructions

Cell membrane transport
1. Passive: no energy necessary, concentration driven
- (Facilitated) Diffusion
- Osmosis

2. Active: costs energy

Slide 14 - Slide

This item has no instructions

The cell membrane comprises of two layers of phospholipids
Hydrophylic out- and inside
Hydrophobic layer in between
Not permeable to water

Slide 15 - Slide

This item has no instructions

aquaporine
A protein channel that allows the diffusion of water in and out the cell
facilitated diffusion
diffusion is made easer by protein channels through the cell membrane

Slide 16 - Slide

This item has no instructions

Slide 17 - Slide

This item has no instructions

Which diagram best shows the end result of diffusion?

A
F
B
G
C
H
D
J

Slide 18 - Quiz

This item has no instructions

Diffusion is the movement of molecules from an area of _____ concentration to an ______ concentration
A
high, low
B
high, high
C
low, high
D
low, low

Slide 19 - Quiz

This item has no instructions

Which is true of passive transport?

A
Moves from low to high concentration
B
Requires energy
C
Moves from high to low concentration
D
Moves against the gradient

Slide 20 - Quiz

This item has no instructions

Learning goals Diffusion and Osmosis
You can explain the process of diffusion and osmosis
You know why osmosis is important for the support of plants

Slide 21 - Slide

This item has no instructions

Slide 22 - Slide

This item has no instructions

Describe what happens in the video

Slide 23 - Mind map

This item has no instructions

Diffusion
  • Molecules going through the cell membrane
  • Molecules (" go with the flow") move from a high to a low concentration
  • The movement of molecules is random until a balance is reached
  • This is a form of passive transport, because the energy comes from the molecules themselves

Slide 24 - Slide

This item has no instructions

Slide 25 - Slide

This item has no instructions

Try to describe what happens using this new information

Slide 26 - Mind map

This item has no instructions

Slide 27 - Slide

This item has no instructions

How does heat affect diffusion?
A
It has no effect
B
More heat means faster diffusion
C
More heat means slower diffusion

Slide 28 - Quiz

This item has no instructions

Effect distance on diffusion

Slide 29 - Slide

The shorter the distance, the faster the molecules will have equal concentrations throughout the space
Effect surface area on diffusion

Slide 30 - Slide

The bigger the surface area, the faster the molecules will be evenly distributed over the available area
Effect concentration gradient on diffusion

Slide 31 - Slide

The bigger the difference in concentration, the faster diffusion will happen
Misconceptions with diffusion
  • Molecules want the concentration to be equal/ try to make the concentrations equal. 

  • Molecules stop moving after the concentrations are equal. 
Molecules never stop moving, but when concentrations are equal there are equal amounts of molecules moving in every direction = balance
Molecules have no mind to think with, they move randomly

Slide 32 - Slide

This item has no instructions

Now... can you think of any examples of diffusion in living organisms?

Slide 33 - Open question

This item has no instructions

What affects the rate of diffusion?
Diffusion is faster
High temperature
Large surface area
Small surface area
Low temperature
Large particles
Small particles
Large concentration gradient
Small concentration gradient
Shorter distance in between two regions
Longer distance in between two regions

Slide 34 - Drag question

This item has no instructions

Special type of diffusion = facilitated diffusion: faster movement (but still no energy or ATP needed)


1.  By channel proteins: charged ions e.g. Na+, Cl-
2. By carrier proteins:  larger polar molecules e.g. sugars, amino acids 


Slide 35 - Slide

This item has no instructions

Channel protein vs. carrier protein
Molecule attaches to the carrier protein at binding site --> carrier protein changes shape --> molecule gets 'delivered' through the cell membrane

Slide 36 - Slide

This item has no instructions

More lessons like this

YV4-cells-4.5 Membrane transport Diffusion

- Lesson with 34 slides
BiologieMiddelbare schoolvwoLeerjaar 4

YV4-Cells-Osmosis- Active Transport

- Lesson with 24 slides
BiologieMiddelbare schoolvwoLeerjaar 4

YV4-Cells-Osmosis- Active Transport

- Lesson with 32 slides
BiologieMiddelbare schoolvwoLeerjaar 4

YV4-Cells-Osmosis

- Lesson with 14 slides
BiologieMiddelbare schoolvwoLeerjaar 4

TV4 - Ch.5: Membrane transport

- Lesson with 22 slides
BiologieMiddelbare schoolvwoLeerjaar 4

YV4-cells-diffusion

- Lesson with 12 slides
BiologieMiddelbare schoolvwoLeerjaar 4

1.2 Practical cellular respiration

- Lesson with 19 slides
BiologyMiddelbare schoolvwoLeerjaar 2

YV4-cells-diffusion

- Lesson with 14 slides
BiologieMiddelbare schoolvwoLeerjaar 4