Category: Resources

Scientific Method puzzle

Scientific Method

Find each term and then define it on the back of the paper.

 

 

Y N B E L F U N I J M H T N M
H O E N B G W N C G W N Q S Y
A I R X H Y P O T H E S I S C
C T E A P L K J V D V L Y R O
H A A L U E Q G N I O F E C N
A V X D B P R E X R S P G F C
R R C E B A P I T O E H S F L
T E G T R E I N M A H T I K U
I S E S D R O R T E A Y S A S
E B K N V C O A A B N Q Y V I
I O I Q T V B R L V K T L P O
S X Q R F L L E S H J S A P N
B I T N E D N E P E D X N V B
Q O N I Y K Z H E L Q Z A J P
T E S T I N G H P A R G N R O

 

 

 

ANALYSIS CHART CONCLUSION
CONTROL DATA DEPENDENT
ERRORS EXPERIMENT GRAPH
HYPOTHESIS INDEPENDENT OBSERVATION
REPEATABLE TABLE TESTING
VARIABLE

 

 

 

 

Solution

 

 

Scientific Method PPT Questions

 

Scientific Method
ppt Questions

Steps in the Scientific Method

1. Name the steps in the scientific method.

 

2. Explain a scientist’s first step in the scientific method.

 

3. Give an example of an observation that a scientist might make.

 

4.Scientists use their __________ to make observations.

5. What is a hypothesis?

 

6. A hypothesis must be _____________ and it __________ an outcome.

7. Some hypotheses are written as __________ statements. 

8. Write a hypothesis for the observation you wrote in question 3.

 

9. What is an experiment?

 

10. What part of an experiment is the variable?

 

11. How many variables should there be in a good experiment?

Controls and Variables

12.An experimenter changes ______ factor and then observes and _______ what happens.

13. Other factors in an experiment must be kept __________ so they won’t effect the ___________.

14. What are these constant factors called?

15. What is the purpose of having a control in an experiment?

16. Name the two types of variables in an experiment.

17. What is the independent variable?

 

18. What is the independent variable?

 

19. In the experiment to find the fastest route to school, what serves as:

     a. the independent variable?

     b. the dependent variable?

     c. the control variable?

20. The best experiments make __________ trials with the independent variable.

Valid Experiments

21. Name the two group needed to have a valid experiment.

22. What is data?

23. What are the two types of data?

24. If the data is numbers, this is called ____________ data.

25. To be useful, collected data must be _____________.

26. Name 3 ways of organizing data.

27. What is the conclusion of an experiment?

 

28. What must be done to verify the results of an experiment?

Review

29.To solve a problem, you should _________ the problem and state _____________ you have made about it.

30. Next, you form a __________ or prediction and conduct an ____________ to test the prediction.

31. During an experiment, _________ must be collected and later ____________..

32. Finally, a scientist forms a ____________ based on your data.

33. To prove the experiment is correct, scientists ___________ their results.

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Second Semester Study Guide Bl

 

Second Semester Review 

 

Are animals autotrophs or heterotrophs? Explain.
What type of symmetry does a sea anemone have?
At which end of an animal is the tail located?
What supportive rod along the back do all chordates have at some time during their life?
How do sponges differ from all other animals?
How does a sponge obtain its food?
What hard, needle like structures are found in the walls of sponges?
Do all animal cells have cell walls? Explain.
In what phylum are squid & octopus found?
Name 4 animals that are classified as cnidarians.
What is the function of collar cells in sponges?
Are animals unicellular or multicellular organisms?
At which end of an animal is the head located?
What kind of symmetry do insects have?
Flatworms use what method to asexually reproduce?
Why do flatworms NOT need circulatory & respiratory systems?
What group of worms has a pseudocoelom?
What is the function of the radula in mollusks?
Which class of mollusks uses “jet propulsion” to move?
Describe torsion in gastropod mollusks.
Give several examples of appendages in arthropods.
Describe the body of all arthropods.
Describe the appendages of all arthropods.
In what group are clamworms found?
Name 3 main classes of mollusks.
What muscles open & close bivalve mollusks?
What makes up the exoskeleton of arthropods?
Name 4 members of the class Crustacea.
What group of animals has 3 body regions & 6 legs?
How do insects benefit agricultural crops?
Name 4 characteristics of all chordates.
In what order are amphibians without tails found?
From what structure in fish did jaws probably arise?
List 4 examples of echinoderms.
What structure in fish filters wastes from blood?
The urinary bladder & kidneys in fish make up what system?
Where are shark eggs fertilized?
What does “Agnatha” mean?
What does “Chondrichthyes” mean?
Describe caecilians.
Name 4 things used by sharks to detect their prey.
What type of symmetry do echinoderms have?
Why do most amphibians have thin, moist skin?
What does “amphibian” mean?
Describe development in placental mammals.
Where is the diaphragm found in mammals?
Name a reptilian characteristic found in birds.
What covers the body of birds?
What covers the body of reptiles?
Describe a reptile’s skin.
Are reptiles ectotherms or endotherms? Explain.
Where are the chorion & amnion found?
How many chambers does a bird’s heart have?
What adaptation of reptiles allowed them to live & reproduce on land?
How many chambers does the heart of most reptiles have?
How many chambers does the heart of mammals have?
Which group of vertebrates has a diaphragm & what is its function?
Are mammals endotherms or ectotherms?
Name 3 groups of ectothermic vertebrates.
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Seed Germination & Detergents

 

Detergent & Seed Germination

Introduction:

Seeds come in different sizes, shapes, and colors. Some are edible and some are not. Some seeds germinate readily while others need specific conditions to be met before they will germinate. Within every seed lives a tiny plant or embryo.The outer covering of a seed is called the seed coat. Seed coasts help protect the embryo from injury and also from drying out. Seed coats can be quite thin and soft as in beans or very thick and hard as in locust or coconut seeds. Endosperm, which is a temporary food supply, is packed around the embryo in the form of special leaves called cotyledons or seed leaves. These generally are the first parts visible when the seed germinates. Plants are classified based upon the number of seed leaves (cotyledons) in the seed. Plants such as grasses and grass relatives can be monocots, containing one cotyledon. Dicots are plants that have two cotyledons.

 Seeds remain dormant or inactive until conditions are right for germination. All seeds need water, oxygen, and proper temperature in order to germinate. Some seeds require proper light also. Some germinate better in full light while other require darkness to germinate.When a seed is exposed to the proper conditions, water and oxygen are taken in through the seed coat. The embryo’s cells start to enlarge and the seed coat breaks open and root or radicle emerges first, followed by the shoot or plumule which contains the leaves and stem.

Many factors contribute to poor germination. Over-watering results in a lack of proper oxygen levels. Planting seeds to too deep results in the seed using up all of its stored energy before reaching the soil surface, and dry conditions result in the lack of sufficient moisture to start and sustain the germination process.

Objective:

The students will be able to describe how some environmental factors affect seed germination.

Materials:

Masking tape, Scissors, 3 ziplock bags, Marker, Forceps, Paper Towels, Metric Ruler, 3 colored pencils, 25 seeds, distilled water, 50 ml graduated, 1% detergent solution, 10% detergent solution, graph paper

Procedure:

  1. Label the 3 zip lock bags: Control, 1% Solution and, 10% Solution.
  2. Cut 6 square pieces of paper toweling to fit each bag.
  3. Place 2 squares in each bag.
  4. Distribute 6 seeds on each side of the paper towel between the plastic and towel.
  5. In the control bag add 25 ml of distilled water completely moistening the paper towel.
  6. In the 1% solution bag add 25 ml of 1% detergent solution making sure to completely moisten the towel.
  7. Do the same to the 10% solution bag by adding 25 ml of 10% detergent solution.
  8. Make sure all bags are sealed tightly.
  9. Place the bags in a dark warm place designated by the instructor.
  10. Write a hypothesis predicting the results of the experiment.
  11. Examine the bags daily for 5 days. Record any changes that might have occurred. If the roots is visible the seed is considered germinated.
  12. Record your date in the table below.
  13. Do not allow your towels to dry out. Moisten each bag with the appropriate solutions in equal amounts.
  14. Measure the root growth of each seed daily from the time it appeared.
  15. Graph the data from the table using the colored pencils to represent each of the zip lock bags.

Number of Seeds Germinated

 

Day Control 1% Detergent Solution 10% Detergent Solution
1
2
3
4
5

 

Average Growth of Germinating Seeds(mm)

Day Control 1% Detergent Solution 10% Detergent Solution
1
2
3
4
5

Graph Title: ________________________________________

Analysis:

1. How many of the seeds germinated after 5 days in distilled water? ________. In 1% solution? _______ in 10% solution? ________.

2. Was there a difference in the number of seeds germinated?

3. In which of the three bags did seeds germinate faster?

4. What was the purpose of the control?

5. Did the detergent strength have an effect on the seed’s germination? If so What was it?

6. Was your hypothesis correct? Why or why not?

7. If it was not, what will you do now?

 

Puzzle Solution – Cell Membranes

 

Homeostasis & Transport
Answer Key
Phrase:
Concentration gradients cause molecules to move
Terms:

passive transport
cell membrane
homeostasis
diffusion
kinetic
equilibrium
molecules
osmosis
energy
hypotonic
hypertonic
cytosol
isotonic
contractile vacuoles
water
pump
movement
turgor pressure
plasmolysis
cytoplysis
plant cell
animal cell
carrier protein
facilitated diffusion
ion channel
sodium
active transport
sodium potassium pump
exocytosis
endocytosis
vesicle
pinocytosis
phagocytosis