Biology week 2 | Biology homework help

Type your answers and paste any required pictures directly into this Word document. Submit it via the Blackboard submission link in Word format (docx).

· Answers typed into a blank document or submitted in the other formats will not be accepted.

· Photographic documentation of your experiment is required for this lab. They must be embedded (pasted into the document) and will not be accepted as stand-alone files. Each picture must be at least 3” x 3”.

· Each picture must include your face, so use selfies in which you and your experiment are clearly visible.

·
Failure to include proper photo documentation will result in a grade of zero for this assignment, regardless of other work submitted.

· Assignments may not be submitted via email without express permission from the instructor.

1. Students will identify key variables within a provided scenario and develop a related hypothesis.

2. Students will compare the relationship between both an independent and dependent variable of interest.

3. Students will interpret their experimental results and either support or reject their initial hypothesis.

Learning about the scientific method is almost like saying that you are learning how to learn. You see, the scientific method is the way scientists learn and study the world around them. It can be used to study anything from a leaf to a dog to the entire universe. In this lab, we’re going to use the steps of the scientific method to investigate the properties of water; in particular, the rates of evaporation.

Revised Spring 2024

·

1

Copyright 2006, Gale Group. All rights reserved. Gale Group is a Thomson Corporation Company.

· 1 measuring cup (250 mL or larger)

· 1 loaf (or similarly shaped) pan that can hold 250 mL of fluid

· 1 coffee mug

· Water

· 2 paper towels

· 2 plastic plates

· Digital camera

Follow the instructions below to complete the two lab experiments. Read over all the directions before you begin. This lab will take at least 5 days to complete.

Please be warned that some homework questions are hidden within the laboratory instructions
.

Part I: Measuring Evaporation in Kitchen Containers

1.
Develop a hypothesis: A hypothesis is a testable answer to a scientific question. It should evaluate the relationship between an
independent variable (
characteristic or quality that’s unique to the experimental group) and another
dependent variable (
a quality whose value depends on that of another). This statement can be tested in a controlled experiment, and the results can either support or reject said hypothesis. When a considerable number of related hypotheses are supported, then they can become a theory. Therefore, a theory is an explanation of the natural world which is grounded in experimental evidence.

A.
Example: Regular access to fertilizer (
independent) increases (
implied relationship between both variables) the growth rate (
dependent) of potted plants.

2.
Develop a prediction: A prediction is a quantitative statement that forecasts the projected results of an experiment. It should include the original hypothesis, and a short description of your experimental model. It utilizes an “If, then” statement to predict what will happen. If the hypothesis is accurate, then the independent variable should measurably impact the dependent variable in a certain way.

A.
Example: If regular access to fertilizer increases plant growth, then fertilized plants (
experimental group) should grow taller than unfertilized plants (
control group).

3.
Hypothesis Construction: Before you begin, you should develop a hypothesis. It should be short, and it should assess the relationship between container width (
independent) and evaporation rate (
dependent). Write down your hypothesis on the line provided below (
Hint*
Don’t use ambiguous words like affect, impact, or alter).


___________________________________________________________________________________________

4.
Prediction Practice: With your hypothesis in-hand, it’s time to predict your experimental results. Which container (
loaf pan or coffee mug) should experience a faster evaporation rate? Write down your prediction on the line provided below. Also, use an “If, then” statement for this part. For example: “If wider surface areas ________ evaporation rate, then ________ containers should lose water faster than ________ containers.
Please copy this prediction into the first “results section” to receive five points.


___________________________________________________________________________________________

5. Measure out 250mL of water and pour it into the loaf pan.

6. Measure out the same amount of water and pour it into the mug.

7. Place both containers in a sunny place, preferably indoors.

8. Measure the
volume of water in each container once a day for five consecutive days. To measure volume, pour the water from the loaf pan back into the measuring cup, record the volume in milliliters (mL), then return the water to the loaf pan. Repeat the process with the mug.
Note: Do not measure the depth of the water and don’t spill anything!

9. On each of the five days, take a selfie alongside both of your containers.

10.
Table Generation: Use Microsoft Word to illustrate your experimental data with a table. Your table should include the following features: a descriptive title that references both variables (
container surface area and water loss), column labels, row labels, and a reference to your measured units (mL). If you’re unfamiliar with table construction, then please follow the provided instructions.

A. Open a Microsoft Word file.

B. Click on the “Insert” heading on the top-lefthand corner of the screen.

C. Click on the “Table” icon and choose an appropriate number of columns (
vertical boxes) and rows (
horizontal boxes). For this activity, I use six columns by four rows.

D. Fill the data table with accurate information and appropriate labels.

11.
Line Graph Construction: Use Microsoft Excel to create a line graph (
also called a Figure) showing the rate of evaporation (
change in volume over time) with your data from the five days. Your finished product should include the following: “Day of Experiment” as the X-axis, “Volume in mL” as the Y-axis, a descriptive title, and legend. Your legend should include both of your groups (the loaf pan and the coffee cup).

1.
Develop a hypothesis: Our previous activity assessed the relationship between container width and evaporation rate (
process of turning from liquid into vapor). As liquid water encounters warm air, atmospheric energy is absorbed into hydrogen bonds. This added energy breaks the bonds, causing water to shift from its liquid state to its gaseous one. As you would expect, a wider container (loaf pan) has more surface area exposure than a deeper one (coffee cup). As a result, more energy is absorbed per second and more water is vaporized. Use what you learned from
Part One to hypothesize and predict your next endeavor. Which leaf morphology will experience a faster evaporation rate: a broad leaf or one that is needle-shaped?
Please copy your prediction into the second “results section” to receive five points.

2. Place a paper towel flat onto a plastic plate. This represents a tree’s flat, broad leaf.

3. Tightly roll up one paper towel lengthwise on another plastic plate. This represents the needle-shaped leaf.

4. Pour 25 mL (0.1 cup) of water evenly over each paper towel.

5.
Observe both paper towels: How wet does each paper towel look and feel? Record your observations in the labeled space below.

6. Take a picture of your setup; your face must be visible in this image. Paste your picture into the labeled space below.

7. Place both plates in a sunny spot. Leave for three hours.

8.
After three hours, observe the paper towels again. Record your observations.

9. Take a picture of your setup; your face must be visible in this image. Paste your image into the labeled space below.

A.
Copy your initial prediction
(“If, then statement”
) from Part I and paste it beneath this sentence.

B.
Results Section: What did you observe over the five days? Did your data support or reject your initial hypothesis? You are encouraged to cite your collected data within this answer.

C.
Paste your five pictures from Part One beneath this sentence. Below each image you must type a caption with a Figure number and a short description of the image. The caption should reference everything within the photograph (Figure One: First Day of Data Collection with Both Containers and Me).

D.
Paste your table beneath this sentence.

E.
Paste your graph beneath this sentence.

A.
Type your prediction
(“If, then statement”
) from Part II beneath this sentence.

B.
Record your observations from Part II beneath this sentence (see #5 and #8).

C.
Paste your pictures from Part Two beneath this sentence. Give each picture a caption as you did in Part I above.

D.
Analysis Questions:

1.
From which container did water evaporate faster: the loaf pan or the mug (Experiment 1
)? Use your graph and experimental evidence to explain your answer.

2.
Which paper towel retained more water after three hours (Experiment 2
)? Reference your original hypothesis here.

3.
A hypothesis can be supported (
by experimental evidence
), but it cannot be “proven”. What does it mean?

4.
Define the following terms in your own words: independent variable (1), dependent variable (2), controlled variables (3), experimental group (4), level of treatment (5), and control group (6)?

5.
What is the difference between a hypothesis and a scientific theory? Please explain in your own words.

Use the following information to answer questions one through five
Biologists noticed that rock climbers compress and dislodge soil from cracks and crevices as they climb. To determine if rock climbing negatively impacted land snail populations on cliffs, researchers surveyed rock cracks and crevices for snails. They studied heavily used climbing routes and areas that were never climbed. Snail densities on heavily used climbing routes were much smaller (20%) than areas with no climbing (McMillan et al. 2003).

1.
Develop a reasonable prediction (
If…then statement) around their experimental hypothesis.

2.
Which is the control group from this investigation?

3.
What is the experimental group from this investigation?

4.
What is the independent variable from this investigation?

5.
What is the dependent variable from this investigation?

Student generated an inaccurate prediction (didn’t address surface area or water volume) = 2.5

Student successfully generated an experimental prediction for Part I which included both variables of interest = 5

Student generated an inaccurate prediction (didn’t address surface area or water volume) = 2.5

Student successfully generated an experimental prediction for Part II which included both variables of interest = 5

Student failed to generate a data table or another meaningful graphic for Part I = 0

Student generated an illustrative graphic (figure, histogram, or scatterplot), but he/she didn’t provide a table = 5

Student provided a data-rich table, but it didn’t include labels and titles = 10

Student generated an illustrative graphic (histogram of some sort), but he/she didn’t provide a line graph = 5

Student illustrated his/her data with a line graph, but it was missing something (labels, titles, units, and a legend) = 10

Student illustrated his/her data with an exemplary line graph. The figure had all relevant titles and labels = 15

Student failed to describe his/her observations from Part II.

Student adequately described his/her observations from Part II.

Each question is worth 4% credit. A student that accurately answers all five questions would receive full credit.

Each question is worth 4% credit. A student that accurately answers all five questions would receive full credit.

Students are required to provide six captioned images for this assignment. This includes five pictures from Part I and one picture from part II. A student that fails to upload any images would not receive credit.

Students that provide six captioned images, but the captions are incomplete would receive partial deductions

Place your order
(550 words)

Approximate price: $22

Calculate the price of your order

550 words
We'll send you the first draft for approval by September 11, 2018 at 10:52 AM
Total price:
$26
The price is based on these factors:
Academic level
Number of pages
Urgency
Basic features
  • Free title page and bibliography
  • Unlimited revisions
  • Plagiarism-free guarantee
  • Money-back guarantee
  • 24/7 support
On-demand options
  • Writer’s samples
  • Part-by-part delivery
  • Overnight delivery
  • Copies of used sources
  • Expert Proofreading
Paper format
  • 275 words per page
  • 12 pt Arial/Times New Roman
  • Double line spacing
  • Any citation style (APA, MLA, Chicago/Turabian, Harvard)

Our guarantees

Delivering a high-quality product at a reasonable price is not enough anymore.
That’s why we have developed 5 beneficial guarantees that will make your experience with our service enjoyable, easy, and safe.

Money-back guarantee

You have to be 100% sure of the quality of your product to give a money-back guarantee. This describes us perfectly. Make sure that this guarantee is totally transparent.

Read more

Zero-plagiarism guarantee

Each paper is composed from scratch, according to your instructions. It is then checked by our plagiarism-detection software. There is no gap where plagiarism could squeeze in.

Read more

Free-revision policy

Thanks to our free revisions, there is no way for you to be unsatisfied. We will work on your paper until you are completely happy with the result.

Read more

Privacy policy

Your email is safe, as we store it according to international data protection rules. Your bank details are secure, as we use only reliable payment systems.

Read more

Fair-cooperation guarantee

By sending us your money, you buy the service we provide. Check out our terms and conditions if you prefer business talks to be laid out in official language.

Read more