2. Slide
2Class 15 • 10/20/15
Agenda
• Introductions
• Expectations & Routines
• What you need for this
class
• What have you learned?
• Vocabulary (review?)
• Cell Membranes
Targets
• Getting to know members
of class
• Understand basic
classroom procedures
• Review/learn
• Nature of Science
• Inferences
• Facts
• Hypothesis
• Open-ended questions
3. Slide
3What you need to have for class
Every Day
• Composition Book for
Openers, spiral notebooks
will NOT be accepted.
• Black or Dark Blue ink pen
• Pencil
• Three-ringed binder to
keep papers in.
• Notebook paper
On Occasion
• 4 Gb USP thumb drive
• Colored Pencils
• Simple calculator
4. 1. Name and nickname
2. Favorite subject
3. Previous school (& location if not
local)
4. Number of family members you live
with
5. Favorite type of music
6. Favorite singer/band
7. Favorite reading material (book,
magazine)
8. Favorite TV program
9. Something about yourself others
don’t know
10. What makes you unique
11. One biology “thing” you have
learned so far that you did not
know, expect or were amazed by.
On a sheet of
paper answer
the following
questions
Tell Me about
You
A.Type of your
computer
operating system
B.Whether you
have Internet
connection at
home.
5. Class
C e l l P r o c e s s e s
Oct. 22, 2015 1
6
6. Slide
6
Class 16 Opener
10/22/15
In your composition
book write the date at
the top of the page then
answer the following
questions.
1.What is the difference
between active and
passive transport when
discussing cellular
membranes?
2.Image A is an example
of… ?
3.How is diffusion
Image B
Image A
7. Slide
7
Class 16 Opener
10/22/15
1.What is the difference
between active and passive
transport when discussing
cellular membranes? Active
transport requires energy
(ATP) and passive transport
does not.
2.Image A is an example of… ?
Image A is an example of
active transport.
3.How is diffusion different than
osmosis? Osmosis is a
specialized form of
diffusion. Diffusion may or
may not be a form of
osmosis. Specifically
osmosis is the diffusion of
Image B
Image A
8. Slide
8
Agenda Targets
Class 16 • 10/22/15
Opener
Cellular Membranes Lab
• Understand how bubbles are a
model for cell membranes.
• Create flexible membrane
mimicking the Fluid Mosaic
Model.
• Understand membranes are
fluid and flexible.
• Know why membranes are
able to self-repair.
• Recognize eukaryotic cells
feature membrane bound
organelles.
• Understand how membrane
proteins can perform special
9. Class
C e l l P r o c e s s e s
Oct. 26, 2015 1
7
10. Slide
10 Opener • Oct. 26
1. What controls the
molecular movement
in and out of a cell?
2. What does the
drawing in Image A
represents?
3. What does the
animation in Image B
represent?
4. Lab: soap bubble —
What did the bubble
represent?
5. Explain how the “skin”
Image B
Image A
11. Slide
11 Opener • Oct. 26
1.What controls the
molecular movement in
and out of a cell? The
cell membrane
controls the
movement of
molecules in and out
of a cell.
2.What does the drawing
in Image A represents?
Image A is of a cell
membrane.
3.What does the
animation in Image B
represent? The
Image B
Image A
12. Slide
12 Opener • Oct. 26
4. Lab: soap bubble —
What did the bubble
represent? It
represented a cell
membrane.
5.Explain how the “skin”
of the bubble differs
from a cell membrane.
The soap bubble non-
polar “tails” face in
the opposite direction
of a cell membrane
“tails.” Cell
membrane non-polar
tails face each other
Image B
Image A
13. Slide
13
Agenda Targets
Biology Class 17 • 10/26/15
1.Opener
2.Diffusion,
Osmosis &
Cellular
Membrane
3.PowerPoint
4.Demo
1.Learn how molecules
move across a semi-
permeable
membrane
2.Understand the
differences between
diffusion and
osmosis
3.Know the following
terms:
A.Endocytosis
B.Exocytosis
C.Pinocytosis
D.Osmosis
E.Diffusion
15. Class
C e l l P r o c e s s e s
Oct. 28, 2015 1
8
16. Slide
16 Opener • Oct. 26
1.What does Image
A represent?
2.How many
layer(s) make-up
cell membranes?
3.Describe the
differences
between active
and passive
transport.
Image B
17. Slide
17 Opener • Oct. 26
1. What does Image A
represent? Image A
represents a
Phospholipid
Molecule
2. How many layer(s)
make-up cell
membranes? Two
layers of
phospholipids make
up a cell membrane.
3. Describe the
differences between
active and passive
transport. Active
transport uses ATP
Image B
18. Slide
18
Agenda Targets
Biology Class 18 • 10/28/15
1. Opener
2. Finish
Diffusion,
Osmosis &
Cellular
Membrane
Lecture
3. Cell Membrane
Activity
1.Learn how molecules
move across a semi-
permeable membrane
2.Understand the
differences between
diffusion and osmosis
3.Know the following
terms:
A. Endocytosis
B. Exocytosis
C.Pinocytosis
D.Osmosis
E. Diffusion
F. Semi-permeable
4.Create a paper model of a
19. Slide
19
• You will need
1. Directions Sheet
2. Yellow Phospholipid
Molecule Cutout Sheet
3. Answer Sheet
4. Colored Paper for other
molecules
1. Cholesterol = Green
2. Carbohydrates = Blue
3. Proteins = Purple or Pink
• Remember to
• Create a color-coded key
• Use complete sentences
when answering
questions
Phospholipid Molecule =
Yellow
• Head is Polar & Hydrophilic
• Tail is non-polar & hydrophobic
10 Cholesterol = Green
• Holds phospholipid molecules
together
10 Carbohydrates = Blue
• Attach to the perimeter of
membrane
• Cell identifiers
5 Proteins = Purple
• Go through the cell membrane
• Hold carbohydrates on perimeter
• Transport items into and out of
Cell Membrane Activity
20. Slide
20
• Lipid soluble
molecules are
transported through
the cell membranes
more easily than
water soluble
molecules
• Small molecules are
transported through
the membrane more
easily than large
molecules
• The higher the
charge on the
molecule, the harder
Lipid Solubility Rules
21. Slide
21Cell Membrane Diagram
In this drawing
1. Proteins are orange
2. Carbohydrates are
green
3. Cholesterol is
yellow
Phospholipid Molecule = Yellow
• Head is Polar & Hydrophilic
• Tail is non-polar & hydrophobic
10 Cholesterol = Green
• Holds phospholipid molecules
together
10 Carbohydrates = Blue
• Attach to the perimeter of
membrane
• Cell identifiers
5 Proteins = Purple
• Go through the cell membrane
• Hold carbohydrates on perimeter
• Transport items into and out of cell
22. Class
C e l l P r o c e s s e s
Nov. 3, 2015 1
9
23. Slide
23 Opener • Nov. 3
1.Describe the
properties of a
phospholipid
molecule found in a
cell membrane.
2.What is the
purple/blue item in
Image A labeled
“C.”
3.What does it do?
4.What type of
Image B
24. Slide
24 Opener • Nov. 3
1.Describe the
properties of a
phospholipid
molecule found in
a cell membrane.
It consists of a
head region,
which is polar &
hydrophilic, and a
tail region, which
is non-polar &
Image B
25. Slide
25 Opener • Nov. 3
1. Describe the properties
of a phospholipid
molecule found in a cell
membrane.
2. What is the purple/blue
item in Image A labeled
“B.” It is a transport
channel protein.
2. What does it do? It
moves larger polar
molecules through
cell membrane.
3. What type of solution is
shown in Image B? It is
a hypertonic solution.
Image B
26. Slide
26
Agenda Targets
Biology Class 19 • 11/3/15
1. Opener
2. Turn in Cell
Membrane
Activity
3. Levels of
Organization
Lecture (comp. book
notes)
4. Test Thursday
1.Learn how molecules
move across a semi-
permeable
membrane
2.Understand the
differences between
diffusion and
osmosis
3.Know the following
terms:
A.Endocytosis
B.Exocytosis
C.Pinocytosis
D.Osmosis
E.Diffusion
27. Slide
27Should have turned in
•Warm Ups
•Properties of water lab
•Molecule Models Lab
•“Structures of molecules” Paper
28. Class
C e l l P r o c e s s e s
Nov. 5, 2015 2
0
29. Slide
29
Agenda Targets
Biology Class 20 • 11/5/15
1. No Opener rather
questions before
test
2. Test 27 pts.
3. Collect Comp.
Books &
homework
4. Nature of Science
Video & Questions
1.Continue to explore
nature of science &
how scientists work &
think
2.Prepare for
diffusion/osmosis lab
3.Observe how
molecules move across
a semi-permeable
membrane
4.Understand the
differences between
diffusion and osmosis
5.Know the following
terms:
30. Class
C e l l P r o c e s s e s
Nov. 12, 2015 2
1
31. Slide
31
Agenda Targets
Biology Class 21 • 11/12/15
1. Labs
A. Diffusion Lab
today
2. Video on viruses
today
3. Next class:
1. Reading on viruses
next class
2. Data Tables &
Graphing (Carrot
lab prep)
1. Learn how molecules move
across a semi-permeable
membrane
2. Understand the differences
between diffusion and
osmosis
3. Watch for changes in
molecules indicating how
they moved through semi-
permeable plastic of
“baggie.”
4. Discover relative size of
iodine and starch molecules.
5. Know the following terms:
A. Osmosis
B. Diffusion
C. Semi-permeable
6. Learn how flu viruses move
through a body ‘s cells and
multiply.
32. Slide
32Today’s Lab
Diffusion Lab
• Set-up1 Beaker (big in back
of class)
• Fill with H2O
• Add iodine
• 1 Plastic Baggie
• Fill with Starch Solution
(20 ml)
• Wait 20-30 min.
Final Set-up
33. Class
L e ve l s o f O r g a n i z a t i o n
Nov. 13, 2015 2
2
34. Slide
34 Class 22 Opener
1. Which way did the
iodine molecules
move through the
baggie membrane?
Image A
2. Which was larger
iodine or starch
molecules and how
did you determine
this? Image A
3. Are viruses living?
4. What is a
prokaryotic cell?
5. What is Image B a
Image A
Image B
35. Slide
35
Agenda Targets
Biology Class 22 • 11/13/15
1.Opener
2.Pick up journals
(comp books) Worth
11 pts.
3.Test grades
a.Worth 25 pts.
b.Retakes
4.PowerPoint mini
lecture: Viruses
(short)
1. Learn what viruses are.
2. Know the components of
viruses.
3. Know how viruses
replicate.
4. Determine whether viruses
are living.
5. Learn how viral diseases
are spread.
6. Understand the effects of
viral infections.
36. Class
L e ve l s o f O r g a n i z a t i o n
Nov. 17, 2015 2
3
37. Slide
37 Class 23 Opener
1. Explain why
viruses are not
considered
living.
2. What is a
eukaryotic cell?
3. What is the host
of
bacteriophages?
Image B
Image A
38. Slide
38
Agenda Targets
Biology Class 22 • 11/13/15
1.Opener
2.Finish Viruses reading
(group form)
3.Data Tables &
Graphing
a.Handout
b.Rubric
1. Learn what viruses are.
2. Know the components of
viruses.
3. Know how viruses
replicate.
4. Determine whether viruses
are living.
5. Learn how viral diseases
are spread.
6. Understand the effects of
viral infections.
40. Slide
40Data Table Checklist
1. Is there sufficient data to know whether
hypothesis is correct?
2. Are the data recorded in the form of a
table?
3. Is there a title?
4. Is the title clear and does it reflect the
purpose of the data table?
5. Is the table organized, rows and columns
are labeled, and units are indicted
6. Is the independent variable in the first
column?
7. Is the independent variable named?
8. Is the independent variable unit included, if
appropriate?
9. Is there a column (sometimes with sub-
columns) for the dependent variable?
10. Is the dependent variable named?
11. Is the dependent variable unit included, if
appropriate?
12. Are there trial sub-columns under the
dependent variable (one for each trial)?
13. Is there a column for a derived or
calculated quantity?
14. Is a sample calculation is given, if
calculations are required?
15. Is the derived (e.g., average) column on
the far right?
16. Is the derived quantity named, if
appropriate?
17. Is the derived quantity unit included, if
appropriate?
18. Are the derived calculations correct?
19. Does the data matches what was stated to
be collected in the procedures?
20. Are data recorded correctly?
21. Is the source of the data noted?
22. If there is more than one table the tables
are numbered consecutively.
23. Are SI Units used?
42. Slide
42Graph Checklist
1. Is data transformed into the form of a graph?
2. Is the graph type appropriate for the data being
displayed?
3. Does the graph have a descriptive title?
4. Does the graph have a label on both axes indicating
variables and units?
5. Is the independent variable on the x-axis?
6. Is the dependent variable on the y-axis?
7. Does the graph have the proper scale (the appropriate
high and low values on the axes)?
8. Is the scale of graph is regular and consistent?
9. Is data plotted correctly and clearly?
10. Is the graph well-spaced on the page?
11. Is the graph neat, clean and easy to read?
12. Is there appropriate and descriptive key?
13. Are SI Units used?
44. Slide
44
Agenda Targets
Biology Class 27 • 11/21/14
• Opener
• Brief lecture
• Tables & graphs
• Turn in “Design an
Experiment Worksheet”
homework
• Finish Collecting Lab
Data
• Homework: finish lab
table and graph
1.Understand the
differences between
dependent,
independent & control
variables in an
experiment.
2.Be able to design an
experiment.
3.Be able to gather and
record data.
46. Slide
46 Opener
1. List the four items
which must be in
every data table.
2. Image A: What type
of graph is this?
3. What is the
independent variable
for the Acid bean
Seed Lab?
4. What are the five
items every graph
must have?
5. What type of
Solution A
pH 2.3
0%
Solution B
pH 2.9
0%
Solution C pH
3.4
7%
Solution D
pH 3.9
25%
Solution E
pH 4.2
29%
Solution F
pH 6.7
39%
Effects of Acid on Bean Sprouting
Solution A pH 2.3
Solution B pH 2.9
Solution C pH 3.4
Solution D pH 3.9
Solution E pH 4.2
Solution F pH 6.7
47. Slide
47Opener Answer 1
1.List the four items which must be in every
data table.
2.Image A: What type of graph is this?
3.What is the independent variable for the Acid
bean Seed Lab?
4.What are the five items every graph must
have?
5.What type of graph/chart is image B?