Graphing Data
Graphing Data
Graphing Data
Graphing Data
Graphing Data
Graphing Data
Graphing Data
Graphing Data
• Label each axis
• Provide values
• Use X for indep., Y for dep.
• Connect the dots
• If there is more than one polt,
identify them
• Provide a title.
Designing an Experiment
• IV & DV
•
•
•
•
•
•
•
Experimental treatment
Control treatment
Only one IV
Random sample of subjects
Describe procedure
Describe expected results
Explain, based on principles.
LAB ONE
Diffusion and Osmosis
• Water moves from hypotonic
solution to hypertonic solution
• Isotonic = same concentration
Ψ = Ψp + Ψs
LAB ONE
hypo
Diffusion and Osmosis
hyper
LAB ONE
hypo
Diffusion and Osmosis
hyper
LAB TWO
Enzyme Catalysis
LAB TWO
Enzyme Catalysis
LAB TWO
Enzyme Catalysis
LAB THREE
3A.1
3A.2
3B.1
3B.2
Mitosis and Meiosis
Observing Mitosis
Time for Cell Replication
Simulation of Meiosis
Crossing Over During Meiosis
LAB THREE
Mitosis and Meiosis
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
Number of
4:4
Number of
Asci
Showing
Crossover
Total Asci
% Asci
Showing
Crossover
Divided by 2
Gene to
Centromere
Distance
(map units)
LAB THREE
Mitosis and Meiosis
EXERCISE 3B.2: Crossing over during Meiosis in Sordaria
Map units show us relative distances
between genes.
They do not translate directly into
numbers of nucleotide pairs.
Genes that are more than 50 map
units apart assort independently…
and might as well be on separate
chromosomes.
LAB FOUR
Plant Pigments
LAB FOUR
Plant Pigments
LAB FIVE
Cell Respiration
LAB SIX
Molecular Biology
Transformation:
•Bacteria take up naked DNA
LAB SIX
Molecular Biology
Transduction:
•Phages carry bacterial DNA
LAB SIX
Molecular Biology
Conjugation:
•Bacteria “mate” to share DNA
LAB SEVEN
Genetics of Drosophila
LAB SEVEN
Genetics of Drosophila
LAB EIGHT
Population Genetics
LAB EIGHT
2
P
Population Genetics
2
Q
+ 2PQ +
=1
P+Q=1
LAB EIGHT
Population Genetics
LAB NINE
Transpiration
LAB TEN
Circulatory System
LAB TEN
Circulatory System
LAB ELEVEN
Animal Behavior
LAB ELEVEN
Animal Behavior
LAB ELEVEN
Animal Behavior
LAB TWELVE
Dissolved Oxygen
LAB TWELVE
Dissolved Oxygen
DO ↓ with ↑ temperature
DO ↓ with ↑ salinity
DO ↑ with photosynthesis
DO ↓ with respiration
LAB TWELVE
Dissolved Oxygen
Gross Primary Production =
chemical energy made
Respiration rate =
chemical energy used
Net Primary Production =
GPP - RR
LAB TWELVE
Dissolved Oxygen
Gross Primary Production =
chemical energy made
Respiration rate =
chemical energy used
Net Primary Production =
GPP - R
dissolved oxygen
LAB TWELVE
Dissolved Oxygen
NPP
GPP
R
time
.