1. Competency 1: Inquiry
Biology as a science

2. Scientific Method

7. Scientific Method

9. Observations
Qualitative
Quantitative

10. Qualitative Observations
Adjective which describes a quality
Color (Red, blue)
Texture (Smooth, rough)
Shape (Round, square)
Speed (Fast, slow)
Size (Large, small)
Distance (Near, far)
Temperature (Hot, cold)

11. Quantitative Observations
Numerical measurements which describe:
Color (700 nM)
Texture (50 grit sandpaper)
Shape (25 cm diameter circle)
Speed ( 75 m.p.h.)
Size (150 m)
Distance (130 miles)
Temperature (37.5 C)

12. Characteristics of Living Things
All Living things
Made up of cells
Reproduce
Contain D.N.A.
Grow & Develop
Obtain & use materials and energy
Respond to their environment
Maintain homeostasis

13. Levels of organization
Molecular – Atoms & molecules
Cellular – Smallest functional unit of life
Tissue – Group of cells working together to perform the same fxn
Organ – Group of tissues working togeter to perform the same fxn
Organ system – Group of organs working together to perform the same fxn
Organism – Group of organ systems maintaining homeostasis
Population – Group (of a single species) living in the same area
Community – Populations living together
Ecosystem – Community including abiotic factors
Biosphere – Contains all ecosystems

14. Safety and Rules of the Lab

15. Safety Symbols Know safety symbols
They appear in your laboratory activities
They will alert you to possible dangers
They will remind you to work carefully

16. Use Your Head Exercise Caution and Good Judgment
Follow all instructions given by the teacher
Notify the teacher immediately regarding any accident or unsafe areas

17. Use Your Head Read lab instructions ahead of time
Always follow lab procedures exactly
Never do an unauthorized experiment

18. Protect Yourself Eye Safety
Wear safety goggles when working with chemicals, flames, or heating devices
or if possibility of flying debris
If you wear contact lenses let your teacher know

19. Protect Yourself Eye Safety
In case of emergency in which a chemical goes into one’s eye, use the eyewash station
Flush in water for 15 mins. and notify the teacher

20. Protect Yourself Proper Attire
Keep all long hair tied back
Do not wear loose clothing that could catch on fire
Foot wear that completely covers the foot is required

21. Protect Yourself Hand Safety
If a chemical spills on your skin, notify the teacher and rinse with water for 15 minutes
Wash hands after every lab
Handle glassware, sharp tools and heated containers carefully

22. Protect Yourself Hand Safety

23. • When using knifes or other sharp objects always walk with the points
Sharp Objects
Always cut away from fingers and body
Always carry sharp objects with points and tips facing down and away
Never try to catch falling sharp instruments
Grasp sharp instruments only by the handles

24. Sharp Objects Notify teacher if you get cut
• When using knifes or other sharp objects always walk with the points
• When using knifes or other sharp objects always walk with the points
Sharp Objects
Notify teacher if you get cut
Broken glass and sharp objects do not go in trash cans
Teacher will clean up broken glass

25. Electrical Safety
Only electrical plugs are to be placed into an electrical outlet
Unplug electrical equipment after use
Keep all electrical cords, wires, and appliances away from water

26. Physical Safety Handle all equipment carefully
Do not place a cord where someone can trip over it
Push all stools in out of the way
Keep books picked up out of walking isles

27. Heating Safety
Tie back hair and loose clothes when working with open flames
Never look into a container as you are heating it
Never point the end of a test tube being heated at yourself or others
Never heat in a closed container

28. Heating Safety Never leave a heat source unattended
Heated metal and glass looks cool, use tongs or gloves before handling
Do not place hot glassware directly on lab desk or in cold water

29. Chemical Safety
Read all labels twice before removing a chemical from the container
Only use the type and amount of chemical instructed to use
Never touch, taste, or smell a chemical unless instructed by the teacher
Never mix chemicals unless instructed to do so

30. Chemical Safety Transfer chemicals carefully!
Keep lids on chemical containers when not in use
When diluting an acid, pour the acid into water
Consider all chemicals dangerous

31. Animal Safety Only handle living organisms with teacher permission
Always treat living organisms humanely
Wash your hands after handling animals

32. Treatment of Specimen Respect the life of all laboratory specimen
They gave their life for your education

33. Plant Safety Do not eat any plants in lab
Wash your hands after handling plants
Tell your teacher of any plant allergies
Like any organism, plants should be considered possibly harmful

34. You Should Never… Enter store room unless given permission
Take any chemicals from lab or store room
Touch any equipment, chemicals, or other materials until instructed to do so

35. You Should Never… Eat or drink in the lab
Use lab glass-ware to eat or drink out of

36. You Should Never… Engage in…. practical jokes horse play rough house

37. In case of an emergency…
Know the locations of:
fire extinguisher
fire blanket
body shower
eyewash station
first aid kit
If you spill a harmful chemical on yourself or in your eyes, start rinsing immediately and send your partner to get teacher’s help

38. Remember to… Stay at your work station Maintain a clean work area
Read and follow all directions
Report any spills, accidents, or injury to the teacher immediately
Clean and put away all equipment at the end of the lab period
Dispose of waste products according to instruction

39. http://www. blinn. edu/brazos/natscience/lab/man. gif http://images
So Do It Right!

40. Example Graphs

43. Practice Graphs
Recall that a bar graph is useful for comparing information collected by counting. We are going to use the clothing of students in this classroom to demonstrate how to make a data table and bar graph. We will look at the shirt color of boys and girls in the room.

44. Practice Graphs Step 1: Gather Data
An easy way to organize our data is to create a table. Let’s use this table to fill in our data.
Color
# of Boys
# of Girls
Red
Black
Grey
Blue
White
Multi
Other

45. Practice Graphs Step 2: Create the Graph
Independent variable (x-axis): ________
Dependent variable (y-axis): __________
Choose two different colors to use (one to represent boys, one to represent girls).

46. Key Features of Bar Graphs
Title
Axis are labeled with units
Legend
Check your graph to make sure you have these three features

47. Line Graphs Recall that line graphs are useful for showing trends.
Problem:
In an experiment, you check the air temperature at certain hours of the day. At 8 A.M., the temperature is 27 ○C; at 10 A.M., the temperature is 30 ○C; at noon, the temperature is 32 ○C; at 2 P.M., the temperature is 31○C; and at 4 P.M., the temperature is 30 ○C. Graph the results of your experiment.

49. Compound Microscope Parts & Fxn’s
Occular – viewing eyepiece
Coarse adjustment – Rough focus
Fine adjustment – Fine focus
High power objective (400X)
Low objective (100X)
Scanning objective (40X)
Stage – holds slide up against stage clips
Stage clips – holds slide down on stage
Diaphragm – controls amount of light entering slide
Lamp – light source

50. Power of magnification
The relative enlargement of the specimen when seen through the microscope. The power of magnification can be calculated by multiplying the power of the eye piece lens by the power of the objective lens.

51. Inversion
The reversal of the specimen image by the microscope lenses. A specimen that appears upside down when being viewed is actually right-side up on the slide. Moving the specimen to the right causes its image to move to the left likewise, moving it down causes it to move upward.

52. Working distance
The distance between the front of the objective and the top of the cover glass on the slide. The higher the magnification the smaller the working distance.
DO NOT USE THE COARSE ADJUSTMENT UNDER HIGH POWER!!!

53. Resolution (Resolving Power)
The least distance between two points or lines at which they are seen as two, rather than a single blur. The greater the numerical aperture the greater the resolution.
                               

54. Depth of focus
The thickness of a specimen which may be seen in focus at one time. The greater the power of magnification the lesser the depth of focus.

55. Field of vision
The surface area which can be seen when looking through the light microscope. The area decreases with increasing power of magnification.

56. Objectives
Our microscopes have three objectives mounted on a revolving device known as a nosepiece. Engraved on the objective is its power of magnification. The longer the objective the more power of magnification.

57. Diaphragm
A device under the stage of a microscope that can regulate the amount of light reaching a specimen. The more power of magnification the more the diaphragm is opened.

58. Power of Magnification
Definition - The relative enlargement of the specimen when seen through the microscope.
Calculation - The power of magnification can be calculated by multiplying the power of the eye piece lens by the power of the objective lens.
Power of magnification = (Power of the eyepiece lens) X (Power of the objective lens)

59. Parfocal
Once the specimen is focused on low power, you never have to use the course adjustment knob to focus on the next higher power.

60. Oil Immersion Lens
For maximum magnification such as looking at bacteria or white blood cells. It can not be used without a drop of special oil placed between the slide and the objective.

61. Rules for Handling the Microscope
Always carry the microscope with one hand under the base and the other grasping the arm.
Keep both eyes open when looking through the eyepiece.
Keep the stage clean and dry.
Do not remove parts of the microscope.
Use only lens paper when cleaning lenses.
Always begin focusing with the lowest power objective.
Always look from the side when changes lenses
After completing your work, place the microscope on the lowest power objective.
Always return the microscope where you found it & as you found it

62. Preparing a wet-mount slide
                                       
This is an air bubble
under the microscope!!!

63. Tools Used in LAB

64. Different Scientific Tools for the Study of Biology
a. test tube
b. Cork and Rubber stopper
c. test tube holder

65. Different Scientific Tools for the Study of Biology
d. Test tube rack
holds test tube

66. Different Scientific Tools for the Study of Biology
e. Beaker
Holds and measures liquid

67. Different Scientific Tools for the Study of Biology
f. Graduated cylinders
accurately measure out volumes of liquids

68. Different Scientific Tools for the Study of Biology
g. Erlenmeyer flasks
allows the contents to be swirled or stirred during an experiment

69. Different Scientific Tools for the Study of Biology
h. Funnel
transfers liquid from one container to another

70. Different Scientific Tools for the Study of Biology
Stirring rod
stir liquids in flasks or beakers

71. Different Scientific Tools for the Study of Biology
j. Meter stick
Measures length

72. Different Scientific Tools for the Study of Biology
k. Triple beam balance
measures mass

73. Different Scientific Tools for the Study of Biology
l. Thermometer
measures temperature

74. Different Scientific Tools for the Study of Biology
m. Alcohol lamp
source of heat

75. Different Scientific Tools for the Study of Biology
n. Tripod
a stand or support with three legs

76. Different Scientific Tools for the Study of Biology
o. Wire gauze
support a container during heating

77. Different Scientific Tools for the Study of Biology
p. Magnifying glass
magnifies small objects

78. Different Scientific Tools for the Study of Biology
q. Microscope
makes an enlarged image of a very small object

79. Different Scientific Tools for the Study of Biology
r. Glass slide
Provides a mounting surface for examination by microscope

80. Different Scientific Tools for the Study of Biology
s. Cover slip
covers materials on a glass slide

81. Different Scientific Tools for the Study of Biology
t. Petri dish
shallow dish for bacterial culture

82. Different Scientific Tools for the Study of Biology
v. Dissecting Kit

83. Dissecting Kit
1. Scalpel
cuts and dissects specimen

84. Dissecting Kit
2. Forceps
grasp small objects

85. Dissecting Kit
3. Probe
pointed object used to examine specimen

86. Dissecting Kit
4. dissecting scissors
cut specimen to be studied