structures of cells
When you look around at the world, you can see many examples that demonstrate how an object’s or a system’s structure relates to its function. The structure of a highway system, for example, can affect traffic flow. You can, no doubt, think of many other examples.
In this Discussion Board assignment, you will look at the structure of the most basic unit of life, the living cell. You will also investigate how the structures of cells are directly related to the functions that are important to life.
Your text describes the difference between the organelles in a eukaryotic cell and the more simple structure of a prokaryotic cell as an analogy between the chief executive officer’s (CEO’s) corner office and a cubicle. Organelles are like appliances or pieces of furniture that perform specific functions. Choose 1 organelle, and use an analogy to explain its function. For example, explain how a chloroplast is like a solar panel, or how a mitochondrion is like a furnace. Try to think of original analogies for other organelles or cell structures such as golgi, lysosome, cell wall, cell membrane, endoplasmic reticulum, ribosomes, nucleus, and so on. Include how your analogy may be less than perfect. Compare your analogy with those of your classmates’.
You will read that only plants, algae, and some bacteria are photosynthetic. There is an exception to this, though. One species of sea slug has found a way to steal chloroplasts, store them in cells lining its digestive tract, and live on the sugar that is produced (Milius, 2010). What benefit would there be for animal cells (including those of humans) to make their own food? Could cell, tissue, or genetic engineering allow humans to use chloroplasts this way? Describe 1 or 2 factors that would need to be considered for chloroplasts to function in an animal or a human.
Milius, S. (2010). Green sea slug is part animal, part plant. Retrieved from http://www.wired.com/wiredscience/2010/01/green-sea-slug/
Provide references in APA format. This includes a reference list and in-text citations for references used throughout the assignment.
External Web Links
PART 2 OF THE ASSIGNMENT!!!
Deliverable Length: 2-3 pages
Scientific inquiry in biology starts by observing the living species around you. What separates science from the other methods of seeking truth is that it is testable (e.g., one can devise experiments to test the validity of an idea); it is falsifiable (e.g., an experiment can reveal if an idea is false); and it involves natural causality (e.g., the method involves and depends upon the natural laws of the universe which cause things to happen in a predictable and repeatable manner).
Observation: Scientific inquiry begins when something interesting gets your attention.
Question: Following an observation, a question arises in your mind. It may be something like “I wonder what?” or, “I wonder how? or, “I wonder why?”
In this assignment, you will take a look at the scientific method. You will design a (fictional) scientific study to answer a specific question based upon an observation.
First, choose 1 of the following observations or questions:
After choosing 1 of the above options (observation and question), you will do some library or Internet research about the subject. Once you have become familiar with the topic, propose a testable hypothesis to answer the question, and follow the rest of scientific method to determine if your hypothesis is correct by designing a controlled experiment.
You will not actually do the experiment or collect results; rather, you will propose a workable controlled experiment and make up what would seem to be reasonable results. You will then discuss those imagined results and draw a conclusion (based upon your imagined results) about whether or not to accept your hypothesis.
Complete the steps of the scientific method for your choice of observation and question using the directions below. Use the following headings in your paper.
The introduction is an investigation of what is currently known about the question being asked. Before one proposes a hypothesis or dashes off to the lab to do an experiment, a thorough search is made in the existing literature about the specific question and about topics related to the question. Once one is familiar with what is known about the question under consideration, one is in a position to propose a reasonable hypothesis to test the question.
This is an educated guess or a best guess about what might be the explanation for the question that is asked. A hypothesis should be a 1-sentence statement (not a question) that can be tested in an experiment. A hypothesis can be stated as a prediction using an if/then statement. The ability to test a hypothesis implies that it has a natural, repeatable cause.
Controlled Experimental Method
The hypothesis is tested in a controlled experiment. A controlled experiment compares a control (e.g., the normal, unmodified, or unrestricted, or uninhibited set-up based on the observation) to one or several experimental set-ups. The conditions in the experimental set-ups are identical to the control in every way (e.g., temperature, composition, shape, kind, etc.), except for the one experimental variable that is being tested. The results obtained from the experimental set-ups will be compared to each other and to those obtained from the control. If done correctly, any differences in the results may be attributed to the experimental variable under consideration.
When designing an experiment, it is important to use multiples (replicates) for each set-up to avoid drawing the wrong conclusion. If the experiment only has one control and only one experimental setup with just one test subject in each, there is always the chance that a single living organism (test subject) could get sick or even die for reasons not caused by the experimental variable. Because living organisms are genetically different, the results from just one test subject in a given setup may not be typical for the species as a whole. This could result in errors when interpreting the results. This kind of problem is avoided by using multiple controls and multiple experimental setups with multiple test subjects.
Be sure to provide sufficient details in your method section so that someone could reproduce your experiment.
The experimental method section should also state clearly how data (numbers) will be collected during the experiment, which will be used to compare results in each test setup.
Because this is a suppositional experiment, you will make up results according to what you think might happen if you actually did the experiment.
Results should include detailed raw data (numbers) rather than just a summary of the results. For example, if data are collected daily for five weeks, results should include the actual data from each day, and not just a summary of what happened at the end of the five weeks. Recorded results should match the experimental method.
In this section, clearly state whether you reject or accept the hypothesis based on the (imagined) results. Discuss what this means in terms of the hypothesis, such as the need for additional experiments or the practical uses or implications of the results.
Provide references in APA format. This includes a reference list and in-text citations for references used in the introduction section.
Give your paper a title, and identify each section as specified above. Although the hypothesis will be a 1-sentence response, the other sections will need to be paragraphs to adequately explain your experiment.
Submit your assignment as a Word document.
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Please submit your assignment.
For assistance with your assignment, please use your text, Web resources, and all course materials. Please refer to the following:
External Web links
|50%||Purpose of Assignment/Content Development|
|Demonstrates exemplary use of the scientific method to test a hypothesis based on a biological system.
Introduction: Description of investigation and background information. Explanation of rationale behind project.
Hypothesis: A single, clear statement that can be shown to be true or false based on the results of the study.
Methods: A demonstration of the scientific method based on comparing a control group with a test group and collecting empirical data.
Results: This should include data only.
Discussion/Conclusion: Summarize results. Interpret what the results mean to the hypothesis. Draw a conclusion.
|20%||Critical and creative thinking, problem-solving|
|Demonstrates ability to analyze assumptions and evaluate evidence, complexities of issues, and alternatives.|
|Explains rationale of project in the introduction.
Develops a clear hypothesis.
Interpret results, includes discussion of importance and relates these back to the hypothesis.
|Demonstrate effective written and oral communication skills, including the ability to organize and communicate thoughts, ideas, and information in effective documents and presentations.|
|Organized report as a lab report with relevant headings as indicated in the assignment description.
Language clearly and effectively communicates ideas and content relevant to the assignment
|5%||Information literacy and research|
|Demonstrates selection and use of high quality, credible, and relevant sources to develop ideas that are appropriate to the assignment.|
|Includes correct in-text citations.
Includes correct APA formatted references. (Minimum: one reference, which may include text.)
Do not forget to include APA citation and references for your work.
*ALSO, PLACE BOTH PARTS ONTO SEPERATE DOCUMENTS*