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Scientific Reports What this handout is about This handout provides a general guide to writing reports about scientific research you’ve performed.In addition to describing the conventional rules about the format and content of a lab report, we’ll also attempt to convey why these rules exist, so you’ll get a clearer, more dependable idea of how to approach this writing situation.
Readers of this handout may also find our handout on writing in the sciences useful Latest news and features on science issues that matter including earth, environment, and space. Get your science news from the most trusted source!.Readers of this handout may also find our handout on writing in the sciences useful.
Background and pre-writing Why do we write research reports? You did an experiment or study for your science class, and now you have to write it up for your teacher to review.You feel that you understood the background sufficiently, designed and completed the study effectively, obtained useful data, and can use those data to draw conclusions about a scientific process or principle.But how exactly do you write all that? What is your teacher expecting to see? To take some of the guesswork out of answering these questions, try to think beyond the classroom setting.In fact, you and your teacher are both part of a scientific community, and the people who participate in this community tend to share the same values jreference.com/homework/constitutional-law.php.
In fact, you and your teacher are both part of a scientific community, and the people who participate in this community tend to share the same values.
As long as you understand and respect these values, your writing will likely meet the expectations of your audience—including your teacher jreference.com/homework/constitutional-law.php.As long as you understand and respect these values, your writing will likely meet the expectations of your audience—including your teacher.So why are you writing this research report? The practical answer is “Because the teacher assigned it,” but that’s classroom thinking.Generally speaking, people investigating some scientific hypothesis have a responsibility to the rest of the scientific world to report their findings, particularly if these findings add to or contradict previous ideas.The people reading such reports have two primary goals: They want to gather the information presented.
They want to know that the findings are legitimate.
Your job as a writer, then, is to fulfill these two goals.Introduction Discussion This format, sometimes called “IMRAD,” may take slightly different shapes depending on the discipline or audience; some ask you to include an abstract or separate section for the hypothesis, or call the Discussion section “Conclusions,” or change the order of the sections (some professional and academic journals require the Methods section to appear last).Overall, however, the IMRAD format was devised to represent a textual version of the scientific method.The scientific method, you’ll probably recall, involves developing a hypothesis, testing it, and deciding whether your findings support the hypothesis.
In essence, the format for a research report in the sciences mirrors the scientific method but fleshes out the process a little.Below, you’ll find a table that shows how each written section fits into the scientific method and what additional information it offers the reader.Section states your hypothesis explains how you derived that hypothesis and how it connects to previous research; gives the purpose of the experiment/study Methods clarifies why you performed your study in that particular way Results (perhaps) expresses the data in table form, as an easy-to-read figure, or as percentages/ratios Discussion explores the implications of your finding and judges the potential limitations of your experimental design Thinking of your research report as based on the scientific method, but elaborated in the ways described above, may help you to meet your audience’s expectations successfully.We’re going to proceed by explicitly connecting each section of the lab report to the scientific method, then explaining why and how you need to elaborate that section.Although this handout takes each section in the order in which it should be presented in the final report, you may for practical reasons decide to compose sections in another order.
For example, many writers find that composing their Methods and Results before the other sections helps to clarify their idea of the experiment or study as a whole.You might consider using each assignment to practice different approaches to drafting the report, to find the order that works best for you.What should I do before drafting the lab report? The best way to prepare to write the lab report is to make sure that you fully understand everything you need to about the experiment.Obviously, if you don’t quite know what went on during the lab, you’re going to find it difficult to explain the lab satisfactorily to someone else.To make sure you know enough to write the report, complete the following steps: What are we hoping to learn from this experiment? Read your lab manual thoroughly, well before you start to carry out the experiment.
Ask yourself the following questions: What are we going to do in this lab? (That is, what’s the procedure?) Why are we going to do it that way? What are we hoping to learn from this experiment? Why would we benefit from this knowledge? Answering these questions will lead you to a more complete understanding of the experiment, and this “big picture” will in turn help you write a successful lab report.Consult your lab supervisor as you perform the lab.If you don’t know how to answer one of the questions above, for example, your lab supervisor will probably be able to explain it to you (or, at least, help you figure it out).Plan the steps of the experiment carefully with your lab partners.The less you rush, the more likely it is that you’ll perform the experiment correctly and record your findings accurately.
Also, take some time to think about the best way to organize the data before you have to start putting numbers down.If you can design a table to account for the data, that will tend to work much better than jotting results down hurriedly on a scrap piece of paper.Record the data carefully so you get them right.You won’t be able to trust your conclusions if you have the wrong data, and your readers will know you messed up if the other three people in your group have “97 degrees” and you have “87.” Consult with your lab partners about everything you do.
Lab groups often make one of two mistakes: two people do all the work while two have a nice chat, or everybody works together until the group finishes gathering the raw data, then scrams outta there.Collaborate with your partners, even when the experiment is “over.” What trends did you observe? Was the hypothesis supported? Did you all get the same results? What kind of figure should you use to represent your findings? The whole group can work together to answer these questions.You may believe that audience is a non-issue: it’s your lab TA, right? Well, yes—but again, think beyond the classroom.
If you write with only your lab instructor in mind, you may omit material that is crucial to a complete understanding of your experiment, because you assume the instructor knows all that stuff already.As a result, you may receive a lower grade, since your TA won’t be sure that you understand all the principles at work.
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Try to write towards a student in the same course but a different lab section.That student will have a fair degree of scientific expertise but won’t know much about your experiment particularly.Alternatively, you could envision yourself five years from now, after the reading and lectures for this course have faded a bit Best websites to write a lab report anthropology 100% original 66 pages / 18150 words Chicago 9 days Editing.
Alternatively, you could envision yourself five years from now, after the reading and lectures for this course have faded a bit.
What would you remember, and what would you need explained more clearly (as a refresher)? Once you’ve completed these steps as you perform the experiment, you’ll be in a good position to draft an effective lab report.Introductions How do I write a strong introduction? For the purposes of this handout, we’ll consider the Introduction to contain four basic elements: the purpose, the scientific literature relevant to the subject, the hypothesis, and the reasons you believed your hypothesis viable Department of Anthropology The University of Texas at Austin.Introductions How do I write a strong introduction? For the purposes of this handout, we’ll consider the Introduction to contain four basic elements: the purpose, the scientific literature relevant to the subject, the hypothesis, and the reasons you believed your hypothesis viable.Let’s start by going through each element of the Introduction to clarify what it covers and why it’s important.Then we can formulate a logical organizational strategy for the section.Purpose The inclusion of the purpose (sometimes called the objective) of the experiment often confuses writers.
The biggest misconception is that the purpose is the same as the hypothesis.We’ll get to hypotheses in a minute, but basically they provide some indication of what you expect the experiment to show.The purpose is broader, and deals more with what you expect to gain through the experiment.In a professional setting, the hypothesis might have something to do with how cells react to a certain kind of genetic manipulation, but the purpose of the experiment is to learn more about potential cancer treatments.
Undergraduate reports don’t often have this wide-ranging a goal, but you should still try to maintain the distinction between your hypothesis and your purpose.In a solubility experiment, for example, your hypothesis might talk about the relationship between temperature and the rate of solubility, but the purpose is probably to learn more about some specific scientific principle underlying the process of solubility.Hypothesis For starters, most people say that you should write out your working hypothesis before you perform the experiment or study.Many beginning science students neglect to do so and find themselves struggling to remember precisely which variables were involved in the process or in what way the researchers felt that they were related.
Write your hypothesis down as you develop it—you’ll be glad you did.
As for the form a hypothesis should take, it’s best not to be too fancy or complicated; an inventive style isn’t nearly so important as clarity here.There’s nothing wrong with beginning your hypothesis with the phrase, “It was hypothesized that .” Be as specific as you can about the relationship between the different objects of your study.
In other words, explain that when term A changes, term B changes in this particular way.Readers of scientific writing are rarely content with the idea that a relationship between two terms exists—they want to know what that relationship entails.Not a hypothesis: “It was hypothesized that there is a significant relationship between the temperature of a solvent and the rate at which a solute dissolves.” Hypothesis: “It was hypothesized that as the temperature of a solvent increases, the rate at which a solute will dissolve in that solvent increases.” Put more technically, most hypotheses contain both an independent and a dependent variable.
The independent variable is what you manipulate to test the reaction; the dependent variable is what changes as a result of your manipulation.In the example above, the independent variable is the temperature of the solvent, and the dependent variable is the rate of solubility.Be sure that your hypothesis includes both variables.Justify your hypothesis You need to do more than tell your readers what your hypothesis is; you also need to assure them that this hypothesis was reasonable, given the circumstances.In other words, use the Introduction to explain that you didn’t just pluck your hypothesis out of thin air.
(If you did pluck it out of thin air, your problems with your report will probably extend beyond using the appropriate format.) If you posit that a particular relationship exists between the independent and the dependent variable, what led you to believe your “guess” might be supported by evidence? Scientists often refer to this type of justification as “motivating” the hypothesis, in the sense that something propelled them to make that prediction.Often, motivation includes what we already know—or rather, what scientists generally accept as true (see “Background/previous research” below).But you can also motivate your hypothesis by relying on logic or on your own observations.If you’re trying to decide which solutes will dissolve more rapidly in a solvent at increased temperatures, you might remember that some solids are meant to dissolve in hot water (e.
Or you can think about whether you’ve noticed sugar dissolving more rapidly in your glass of iced tea or in your cup of coffee.Even such basic, outside-the-lab observations can help you justify your hypothesis as reasonable.Background/previous research This part of the Introduction demonstrates to the reader your awareness of how you’re building on other scientists’ work.
If you think of the scientific community as engaging in a series of conversations about various topics, then you’ll recognize that the relevant background material will alert the reader to which conversation you want to enter.Generally speaking, authors writing journal articles use the background for slightly different purposes than do students completing assignments.Because readers of academic journals tend to be professionals in the field, authors explain the background in order to permit readers to evaluate the study’s pertinence for their own work.You, on the other hand, write toward a much narrower audience—your peers in the course or your lab instructor—and so you must demonstrate that you understand the context for the (presumably assigned) experiment or study you’ve completed.
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For example, if your professor has been talking about polarity during lectures, and you’re doing a solubility experiment, you might try to connect the polarity of a solid to its relative solubility in certain solvents.
In any event, both professional researchers and undergraduates need to connect the background material overtly to their own work.Organization of this section Most of the time, writers begin by stating the purpose or objectives of their own work, which establishes for the reader’s benefit the “nature and scope of the problem investigated” (Day 1994) .Organization of this section Most of the time, writers begin by stating the purpose or objectives of their own work, which establishes for the reader’s benefit the “nature and scope of the problem investigated” (Day 1994).
Once you have expressed your purpose, you should then find it easier to move from the general purpose, to relevant material on the subject, to your hypothesis.In abbreviated form, an Introduction section might look like this: “The purpose of the experiment was to test conventional ideas about solubility in the laboratory purpose .According to Whitecoat and Labrat (1999), at higher temperatures the molecules of solvents move more quickly .We know from the class lecture that molecules moving at higher rates of speed collide with one another more often and thus break down more easily background material/motivationjreference.com/powerpoint-presentation/order-an-atomic-energy-powerpoint-presentation-academic-standard-oxford-plagiarism-free.
We know from the class lecture that molecules moving at higher rates of speed collide with one another more often and thus break down more easily background material/motivation .
Thus, it was hypothesized that as the temperature of a solvent increases, the rate at which a solute will dissolve in that solvent increases hypothesis .” Again—these are guidelines, not commandments.Some writers and readers prefer different structures for the Introduction.
The one above merely illustrates a common approach to organizing material.Methods and Materials How do I write a strong Materials and Methods section? As with any piece of writing, your Methods section will succeed only if it fulfills its readers’ expectations, so you need to be clear in your own mind about the purpose of this section.Let’s review the purpose as we described it above: in this section, you want to describe in detail how you tested the hypothesis you developed and also to clarify the rationale for your procedure.In science, it’s not sufficient merely to design and carry out an experiment.
Ultimately, others must be able to verify your findings, so your experiment must be reproducible, to the extent that other researchers can follow the same procedure and obtain the same (or similar) results.
Here’s a real-world example of the importance of reproducibility.In 1989, physicists Stanley Pons and Martin Fleischman announced that they had discovered “cold fusion,” a way of producing excess heat and power without the nuclear radiation that accompanies “hot fusion.” Such a discovery could have great ramifications for the industrial production of energy, so these findings created a great deal of interest.When other scientists tried to duplicate the experiment, however, they didn’t achieve the same results, and as a result many wrote off the conclusions as unjustified (or worse, a hoax).To this day, the viability of cold fusion is debated within the scientific community, even though an increasing number of researchers believe it possible.
So when you write your Methods section, keep in mind that you need to describe your experiment well enough to allow others to replicate it exactly.With these goals in mind, let’s consider how to write an effective Methods section in terms of content, structure, and style.Content Sometimes the hardest thing about writing this section isn’t what you should talk about, but what you shouldn’t talk about.Writers often want to include the results of their experiment, because they measured and recorded the results during the course of the experiment.But such data should be reserved for the Results section.
In the Methods section, you can write that you recorded the results, or how you recorded the results (e., in a table), but you shouldn’t write what the results were—not yet.Here, you’re merely stating exactly how you went about testing your hypothesis.As you draft your Methods section, ask yourself the following questions: How much detail? Be precise in providing details, but stay relevant.
Ask yourself, “Would it make any difference if this piece were a different size or made from a different material?” If not, you probably don’t need to get too specific.If so, you should give as many details as necessary to prevent this experiment from going awry if someone else tries to carry it out.Probably the most crucial detail is measurement; you should always quantify anything you can, such as time elapsed, temperature, mass, volume, etc.Rationale: Be sure that as you’re relating your actions during the experiment, you explain your rationale for the protocol you developed.If you capped a test tube immediately after adding a solute to a solvent, why did you do that? (That’s really two questions: why did you cap it, and why did you cap it immediately?) In a professional setting, writers provide their rationale as a way to explain their thinking to potential critics.
On one hand, of course, that’s your motivation for talking about protocol, too.On the other hand, since in practical terms you’re also writing to your teacher (who’s seeking to evaluate how well you comprehend the principles of the experiment), explaining the rationale indicates that you understand the reasons for conducting the experiment in that way, and that you’re not just following orders.Critical thinking is crucial—robots don’t make good scientists.Control: Most experiments will include a control, which is a means of comparing experimental results.(Sometimes you’ll need to have more than one control, depending on the number of hypotheses you want to test.
) The control is exactly the same as the other items you’re testing, except that you don’t manipulate the independent variable-the condition you’re altering to check the effect on the dependent variable.For example, if you’re testing solubility rates at increased temperatures, your control would be a solution that you didn’t heat at all; that way, you’ll see how quickly the solute dissolves “naturally” (i., without manipulation), and you’ll have a point of reference against which to compare the solutions you did heat.
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Describe the control in the Methods section.
Two things are especially important in writing about the control: identify the control as a control, and explain what you’re controlling for.Here is an example: “As a control for the temperature change, we placed the same amount of solute in the same amount of solvent, and let the solution stand for five minutes without heating it Jump to Where to buy an anthropology report senior one hour chicago turabian - Our staff is also fully trained and experienced in using all standardized academic linguistic and writing styles Help me do my laboratory report anthropology 14 days A4 (British/European) Editing Oxford. Our staff is also fully .Here is an example: “As a control for the temperature change, we placed the same amount of solute in the same amount of solvent, and let the solution stand for five minutes without heating it.
” Structure and style Organization is especially important in the Methods section of a lab report because readers must understand your experimental procedure completely.Many writers are surprised by the difficulty of conveying what they did during the experiment, since after all they’re only reporting an event, but it’s often tricky to present this information in a coherent way Where to order an anthropology lab report no plagiarism ASA double spaced US Letter Size PhD.Many writers are surprised by the difficulty of conveying what they did during the experiment, since after all they’re only reporting an event, but it’s often tricky to present this information in a coherent way.There’s a fairly standard structure you can use to guide you, and following the conventions for style can help clarify your points Where to order an anthropology lab report no plagiarism ASA double spaced US Letter Size PhD.
There’s a fairly standard structure you can use to guide you, and following the conventions for style can help clarify your points.
Subsections: Occasionally, researchers use subsections to report their procedure when the following circumstances apply: 1) if they’ve used a great many materials; 2) if the procedure is unusually complicated; 3) if they’ve developed a procedure that won’t be familiar to many of their readers.Because these conditions rarely apply to the experiments you’ll perform in class, most undergraduate lab reports won’t require you to use subsections.In fact, many guides to writing lab reports suggest that you try to limit your Methods section to a single paragraph.Narrative structure: Think of this section as telling a story about a group of people and the experiment they performed.Describe what you did in the order in which you did it.
You may have heard the old joke centered on the line, “Disconnect the red wire, but only after disconnecting the green wire,” where the person reading the directions blows everything to kingdom come because the directions weren’t in order.We’re used to reading about events chronologically, and so your readers will generally understand what you did if you present that information in the same way.Also, since the Methods section does generally appear as a narrative (story), you want to avoid the “recipe” approach: “First, take a clean, dry 100 ml test tube from the rack.” You should be reporting what did happen, not telling the reader how to perform the experiment: “50 ml of distilled water was poured into a clean, dry 100 ml test tube.
” Hint: most of the time, the recipe approach comes from copying down the steps of the procedure from your lab manual, so you may want to draft the Methods section initially without consulting your manual.Later, of course, you can go back and fill in any part of the procedure you inadvertently overlooked.Past tense: Remember that you’re describing what happened, so you should use past tense to refer to everything you did during the experiment.Writers are often tempted to use the imperative (“Add 5 g of the solid to the solution”) because that’s how their lab manuals are worded; less frequently, they use present tense (“5 g of the solid are added to the solution”).
Instead, remember that you’re talking about an event which happened at a particular time in the past, and which has already ended by the time you start writing, so simple past tense will be appropriate in this section (“5 g of the solid were added to the solution” or “We added 5 g of the solid to the solution”).
first person: In the past, scientific journals encouraged their writers to avoid using the first person (“I” or “we”), because the researchers themselves weren’t personally important to the procedure in the experiment.Remember that other researchers should ideally be able to reproduce experiments exactly, based on the lab report; using first person indicates (to some readers) that the experiment cannot be duplicated without the original researchers present.To help keep personal references out of lab reports, scientific conventions also dictated that researchers should use passive voice, in which the subject of a sentence or clause doesn’t perform the action described by the verb.You can learn more in our handout on passive voice.
These examples might explain the distinction between active and passive voice: Active: We heated the solution to 80°C.(The subject, “we,” performs the action, heating.) Passive: The solution was heated to 80°C.(The subject, “solution,” doesn’t do the heating–it is acted upon, not acting.) Increasingly, especially in the social sciences, using first person and active voice is acceptable in scientific reports.
Most readers find that this style of writing conveys information more clearly and concisely.This rhetorical choice thus brings two scientific values into conflict: objectivity versus clarity.Since the scientific community hasn’t reached a consensus about which style it prefers, you may want to ask your lab instructor.Results How do I write a strong Results section? Here’s a paradox for you.The Results section is often both the shortest (yay!) and most important (uh-oh!) part of your report.
Your Materials and Methods section shows how you obtained the results, and your Discussion section explores the significance of the results, so clearly the Results section forms the backbone of the lab report.This section provides the most critical information about your experiment: the data that allow you to discuss how your hypothesis was or wasn’t supported.But it doesn’t provide anything else, which explains why this section is generally shorter than the others.Before you write this section, look at all the data you collected to figure out what relates significantly to your hypothesis.You’ll want to highlight this material in your Results section.
Resist the urge to include every bit of data you collected, since perhaps not all are relevant.Also, don’t try to draw conclusions about the results—save them for the Discussion section.In this section, you’re reporting facts.
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Nothing your readers can dispute should appear in the Results section.Most Results sections feature three distinct parts: text, tables, and figures.
Text This should be a short paragraph, generally just a few lines, that describes the results you obtained from your experiment In addition to describing the conventional rules about the format and content of a lab report, we'll also attempt to convey why these rules exist, so you'll get a call the Discussion section “Conclusions,” or change the order of the sections (some professional and academic journals require the Methods section to appear last)..Text This should be a short paragraph, generally just a few lines, that describes the results you obtained from your experiment.
In a relatively simple experiment, one that doesn’t produce a lot of data for you to repeat, the text can represent the entire Results section.Don’t feel that you need to include lots of extraneous detail to compensate for a short (but effective) text; your readers appreciate discrimination more than your ability to recite facts.In a more complex experiment, you may want to use tables and/or figures to help guide your readers toward the most important information you gathered.
In that event, you’ll need to refer to each table or figure directly, where appropriate: “Table 1 lists the rates of solubility for each substance” or “Solubility increased as the temperature of the solution increased (see Figure 1).” If you do use tables or figures, make sure that you don’t present the same material in both the text and the tables/figures, since in essence you’ll just repeat yourself, probably annoying your readers with the redundancy of your statements.Feel free to describe trends that emerge as you examine the data.Although identifying trends requires some judgment on your part and so may not feel like factual reporting, no one can deny that these trends do exist, and so they properly belong in the Results section.Example: “Heating the solution increased the rate of solubility of polar solids by 45% but had no effect on the rate of solubility in solutions containing non-polar solids.
” This point isn’t debatable—you’re just pointing out what the data show.As in the Materials and Methods section, you want to refer to your data in the past tense, because the events you recorded have already occurred and have finished occurring.In the example above, note the use of “increased” and “had,” rather than “increases” and “has.” (You don’t know from your experiment that heating always increases the solubility of polar solids, but it did that time.) Tables You shouldn’t put information in the table that also appears in the text.
You also shouldn’t use a table to present irrelevant data, just to show you did collect these data during the experiment.Tables are good for some purposes and situations, but not others, so whether and how you’ll use tables depends upon what you need them to accomplish.Tables are useful ways to show variation in data, but not to present a great deal of unchanging measurements.If you’re dealing with a scientific phenomenon that occurs only within a certain range of temperatures, for example, you don’t need to use a table to show that the phenomenon didn’t occur at any of the other temperatures.How useful is this table? As you can probably see, no solubility was observed until the trial temperature reached 50°C, a fact that the text part of the Results section could easily convey.
The table could then be limited to what happened at 50°C and higher, thus better illustrating the differences in solubility rates when solubility did occur.As a rule, try not to use a table to describe any experimental event you can cover in one sentence of text.Here’s an example of an unnecessary table from How to Write and Publish a Scientific Paper, by Robert A.Day: As Day notes, all the information in this table can be summarized in one sentence: “S.
rainbowenski grew under aerobic conditions, whereas S.greenicus required anaerobic conditions.
” Most readers won’t find the table clearer than that one sentence.When you do have reason to tabulate material, pay attention to the clarity and readability of the format you use.Here are a few tips: Number your table.Then, when you refer to the table in the text, use that number to tell your readers which table they can review to clarify the material.This title should be descriptive enough to communicate the contents of the table, but not so long that it becomes difficult to follow.The titles in the sample tables above are acceptable.Arrange your table so that readers read vertically, not horizontally.For the most part, this rule means that you should construct your table so that like elements read down, not across.Think about what you want your readers to compare, and put that information in the column (up and down) rather than in the row (across).
Usually, the point of comparison will be the numerical data you collect, so especially make sure you have columns of numbers, not ’s an example of how drastically this decision affects the readability of your table (from A Short Guide to Writing about Chemistry, by Herbert Beall and John Trimbur).Look at this table, which presents the relevant data in horizontal rows: It’s a little tough to see the trends that the author presumably wants to present in this table.Compare this table, in which the data appear vertically: The second table shows how putting like elements in a vertical column makes for easier reading.In this case, the like elements are the measurements of length and height, over five trials–not, as in the first table, the length and height measurements foreach trial.Make sure to include units of measurement in the tables.
Readers might be able to guess that you measured something in millimeters, but don’t make them try.
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Line up numbers on the right, like this: 1058 7 or on the decimal point.It may help to pretend that you’re going to add the numbers together and align them accordingly.Don’t use vertical lines as part of the format for your table Under Option I, a student must earn a minimum of 30 semester hours of credit, consisting of 20 to 24 semester hours of regular course work, and present a thesis equivalent to 6 to 10 semester hours. At least one-half of the required work, including thesis, must be taken in one major subject. The remaining work may be in .Don’t use vertical lines as part of the format for your table.
This convention exists because journals prefer not to have to reproduce these lines because the tables then become more expensive to print.
Even though it’s fairly unlikely that you’ll be sending your Biology 11 lab report to Science for publication, your readers still have this expectation The information in parentheses after a course number is the Texas Common Course Numbering (TCCN) designation. Only TCCN designations that are exact semester-hour equivalents of University courses are listed here. Additional TCCN information is given in Appendix A..Even though it’s fairly unlikely that you’ll be sending your Biology 11 lab report to Science for publication, your readers still have this expectation.Consequently, if you use the table-drawing option in your word-processing software, choose the option that doesn’t rely on a “grid” format (which includes vertical lines).Figures How do I include figures in my report? Although tables can be useful ways of showing trends in the results you obtained, figures (i., illustrations) can do an even better job of emphasizing such trends.
Lab report writers often use graphic representations of the data they collected to provide their readers with a literal picture of how the experiment went.When should you use a figure? Remember the circumstances under which you don’t need a table: when you don’t have a great deal of data, or when the data you have don’t vary a lot.Under the same conditions, you would probably forgo the figure as well, since the figure would be unlikely to provide your readers with an additional perspective.Scientists really don’t like their time wasted, so they tend not to respond favorably to redundancy.If you’re trying to decide between using a table and creating a figure to present your material, consider the following a rule of thumb.
The strength of a table lies in its ability to supply large amounts of exact data, whereas the strength of a figure is its dramatic illustration of important trends within the experiment.If you feel that your readers won’t get the full impact of the results you obtained just by looking at the numbers, then a figure might be appropriate.Of course, an undergraduate class may expect you to create a figure for your lab experiment, if only to make sure that you can do so effectively.If this is the case, then don’t worry about whether to use figures or not—concentrate instead on how best to accomplish your task.Figures can include maps, photographs, pen-and-ink drawings, flow charts, bar graphs, and section graphs (“pie charts”).
But the most common figure by far, especially for undergraduates, is the line graph, so we’ll focus on that type in this handout.At the undergraduate level, you can often draw and label your graphs by hand, provided that the result is clear, legible, and drawn to scale.Computer technology has, however, made creating line graphs a lot easier.Most word-processing software has a number of functions for transferring data into graph form; many scientists have found Microsoft Excel, for example, a helpful tool in graphing results.If you plan on pursuing a career in the sciences, it may be well worth your while to learn to use a similar program.
Computers can’t, however, decide for you how your graph really works; you have to know how to design your graph to meet your readers’ expectations.Here are some of these expectations: Keep it as simple as possible.You may be tempted to signal the complexity of the information you gathered by trying to design a graph that accounts for that complexity.But remember the purpose of your graph: to dramatize your results in a manner that’s easy to see and grasp.
Try not to make the reader stare at the graph for a half hour to find the important line among the mass of other lines.
For maximum effectiveness, limit yourself to three to five lines per graph; if you have more data to demonstrate, use a set of graphs to account for it, rather than trying to cram it all into a single figure.Plot the independent variable on the horizontal (x) axis and the dependent variable on the vertical (y) axis.Remember that the independent variable is the condition that you manipulated during the experiment and the dependent variable is the condition that you measured to see if it changed along with the independent variable.Placing the variables along their respective axes is mostly just a convention, but since your readers are accustomed to viewing graphs in this way, you’re better off not challenging the convention in your report.Label each axis carefully, and be especially careful to include units of measure.
You need to make sure that your readers understand perfectly well what your graph indicates.As with tables, the title of the graph should be informative but concise, and you should refer to your graph by number in the text (e.Many editors of professional scientific journals prefer that writers distinguish the lines in their graphs by attaching a symbol to them, usually a geometric shape (triangle, square, etc.), and using that symbol throughout the curve of the line.Generally, readers have a hard time distinguishing dotted lines from dot-dash lines from straight lines, so you should consider staying away from this system.Editors don’t usually like different-colored lines within a graph, because colors are difficult and expensive to reproduce; colors may, however, be great for your purposes, as long as you’re not planning to submit your paper to Nature.Use your discretion—try to employ whichever technique dramatizes the results most effectively.
Try to gather data at regular intervals, so the plot points on your graph aren’t too far apart.You can’t be sure of the arc you should draw between the plot points if the points are located at the far corners of the graph; over a fifteen-minute interval, perhaps the change occurred in the first or last thirty seconds of that period (in which case your straight-line connection between the points is misleading).
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If you’re worried that you didn’t collect data at sufficiently regular intervals during your experiment, go ahead and connect the points with a straight line, but you may want to examine this problem as part of your Discussion section.Make your graph large enough so that everything is legible and clearly demarcated, but not so large that it either overwhelms the rest of the Results section or provides a far greater range than you need to illustrate your point.If, for example, the seedlings of your plant grew only 15 mm during the trial, you don’t need to construct a graph that accounts for 100 mm of growth P/NP or letter grading. 2. Archaeology: Introduction. (5) (Formerly numbered 8.) Lecture, three hours; discussion, one hour; one field trip. Required as preparation for both bachelor's degrees. General survey of field and laboratory methods, theory, and major findings of anthropological archaeology, including case-study .
If, for example, the seedlings of your plant grew only 15 mm during the trial, you don’t need to construct a graph that accounts for 100 mm of growth.
The lines in your graph should more or less fill the space created by the axes; if you see that your data is confined to the lower left portion of the graph, you should probably re-adjust your scale.If you create a set of graphs, make them the same size and format, including all the verbal and visual codes (captions, symbols, scale, etc 7 Jul 1998 - (Fig l).1'2. Analysis. After the remains have been recovered in the field, they usually are transported to a medical examiner's office or other laboratory Anthropology. The usual minimum academic preparation for work in forensic anthropology is a master's degree in physical or biological anthropology with .If you create a set of graphs, make them the same size and format, including all the verbal and visual codes (captions, symbols, scale, etc.You want to be as consistent as possible in your illustrations, so that your readers can easily make the comparisons you’re trying to get them to see.Discussion How do I write a strong Discussion section? The discussion section is probably the least formalized part of the report, in that you can’t really apply the same structure to every type of experiment.
In simple terms, here you tell your readers what to make of the Results you obtained jreference.com/dissertation/education.php.In simple terms, here you tell your readers what to make of the Results you obtained.If you have done the Results part well, your readers should already recognize the trends in the data and have a fairly clear idea of whether your hypothesis was supported.Because the Results can seem so self-explanatory, many students find it difficult to know what material to add in this last section.Basically, the Discussion contains several parts, in no particular order, but roughly moving from specific (i., related to your experiment only) to general (how your findings fit in the larger scientific community).In this section, you will, as a rule, need to: Explain whether the data support your hypothesis Acknowledge any anomalous data or deviations from what you expected Derive conclusions, based on your findings, about the process you’re studying Relate your findings to earlier work in the same area (if you can) Explore the theoretical and/or practical implications of your findings Let’s look at some dos and don’ts for each of these objectives.Explain whether the data support your hypothesis This statement is usually a good way to begin the Discussion, since you can’t effectively speak about the larger scientific value of your study until you’ve figured out the particulars of this experiment.You might begin this part of the Discussion by explicitly stating the relationships or correlations your data indicate between the independent and dependent variables.Then you can show more clearly why you believe your hypothesis was or was not supported.
For example, if you tested solubility at various temperatures, you could start this section by noting that the rates of solubility increased as the temperature increased.If your initial hypothesis surmised that temperature change would not affect solubility, you would then say something like, “The hypothesis that temperature change would not affect solubility was not supported by the data.” Note: Students tend to view labs as practical tests of undeniable scientific truths.As a result, you may want to say that the hypothesis was “proved” or “disproved” or that it was “correct” or “incorrect.” These terms, however, reflect a degree of certainty that you as a scientist aren’t supposed to have.
Remember, you’re testing a theory with a procedure that lasts only a few hours and relies on only a few trials, which severely compromises your ability to be sure about the “truth” you see.Words like “supported,” “indicated,” and “suggested” are more acceptable ways to evaluate your hypothesis.Also, recognize that saying whether the data supported your hypothesis or not involves making a claim to be defended.As such, you need to show the readers that this claim is warranted by the evidence.Make sure that you’re very explicit about the relationship between the evidence and the conclusions you draw from it.
This process is difficult for many writers because we don’t often justify conclusions in our regular lives.For example, you might nudge your friend at a party and whisper, “That guy’s drunk,” and once your friend lays eyes on the person in question, she might readily agree.In a scientific paper, by contrast, you would need to defend your claim more thoroughly by pointing to data such as slurred words, unsteady gait, and the lampshade-as-hat.In addition to pointing out these details, you would also need to show how (according to previous studies) these signs are consistent with inebriation, especially if they occur in conjunction with one another.
To put it another way, tell your readers exactly how you got from point A (was the hypothesis supported?) to point B (yes/no).
Acknowledge any anomalous data, or deviations from what you expected You need to take these exceptions and divergences into account, so that you qualify your conclusions sufficiently.For obvious reasons, your readers will doubt your authority if you (deliberately or inadvertently) overlook a key piece of data that doesn’t square with your perspective on what occurred.In a more philosophical sense, once you’ve ignored evidence that contradicts your claims, you’ve departed from the scientific method.The urge to “tidy up” the experiment is often strong, but if you give in to it you’re no longer performing good science.Sometimes after you’ve performed a study or experiment, you realize that some part of the methods you used to test your hypothesis was flawed.
In that case, it’s OK to suggest that if you had the chance to conduct your test again, you might change the design in this or that specific way in order to avoid such and such a problem.The key to making this approach work, though, is to be very precise about the weakness in your experiment, why and how you think that weakness might have affected your data, and how you would alter your protocol to eliminate—or limit the effects of—that weakness.Often, inexperienced researchers and writers feel the need to account for “wrong” data (remember, there’s no such animal), and so they speculate wildly about what might have screwed things up.These speculations include such factors as the unusually hot temperature in the room, or the possibility that their lab partners read the meters wrong, or the potentially defective equipment.These explanations are what scientists call “cop-outs,” or “lame”; don’t indicate that the experiment had a weakness unless you’re fairly certain that a) it really occurred and b) you can explain reasonably well how that weakness affected your results.
Derive conclusions, based on your findings, about the process you’re studying If, for example, your hypothesis dealt with the changes in solubility at different temperatures, then try to figure out what you can rationally say about the process of solubility more generally.
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If you’re doing an undergraduate lab, chances are that the lab will connect in some way to the material you’ve been covering either in lecture or in your reading, so you might choose to return to these resources as a way to help you think clearly about the process as a whole.This part of the Discussion section is another place where you need to make sure that you’re not overreaching.Again, nothing you’ve found in one study would remotely allow you to claim that you now “know” something, or that something isn’t “true,” or that your experiment “confirmed” some principle or other Best websites to purchase an lab report anthropology American Platinum Formatting A4 (British/European).Again, nothing you’ve found in one study would remotely allow you to claim that you now “know” something, or that something isn’t “true,” or that your experiment “confirmed” some principle or other.
Hesitate before you go out on a limb—it’s dangerous! Use less absolutely conclusive language, including such words as “suggest,” “indicate,” “correspond,” “possibly,” “challenge,” etc.
Relate your findings to previous work in the field (if possible) We’ve been talking about how to show that you belong in a particular community (such as biologists or anthropologists) by writing within conventions that they recognize and accept.Another is to try to identify a conversation going on among members of that community, and use your work to contribute to that conversation Scientific Reports The Writing Center.Another is to try to identify a conversation going on among members of that community, and use your work to contribute to that conversation.In a larger philosophical sense, scientists can’t fully understand the value of their research unless they have some sense of the context that provoked and nourished it.That is, you have to recognize what’s new about your project (potentially, anyway) and how it benefits the wider body of scientific knowledge linguistics.That is, you have to recognize what’s new about your project (potentially, anyway) and how it benefits the wider body of scientific knowledge.On a more pragmatic level, especially for undergraduates, connecting your lab work to previous research will demonstrate to the TA that you see the big picture.
You have an opportunity, in the Discussion section, to distinguish yourself from the students in your class who aren’t thinking beyond the barest facts of the study.Capitalize on this opportunity by putting your own work in context.If you’re just beginning to work in the natural sciences (as a first-year biology or chemistry student, say), most likely the work you’ll be doing has already been performed and re-performed to a satisfactory degree.Hence, you could probably point to a similar experiment or study and compare/contrast your results and conclusions.More advanced work may deal with an issue that is somewhat less “resolved,” and so previous research may take the form of an ongoing debate, and you can use your own work to weigh in on that debate.
If, for example, researchers are hotly disputing the value of herbal remedies for the common cold, and the results of your study suggest that Echinacea diminishes the symptoms but not the actual presence of the cold, then you might want to take some time in the Discussion section to recapitulate the specifics of the dispute as it relates to Echinacea as an herbal remedy.(Consider that you have probably already written in the Introduction about this debate as background research.) Explore the theoretical and/or practical implications of your findings This information is often the best way to end your Discussion (and, for all intents and purposes, the report).In argumentative writing generally, you want to use your closing words to convey the main point of your writing.This main point can be primarily theoretical (“Now that you understand this information, you’re in a better position to understand this larger issue”) or primarily practical (“You can use this information to take such and such an action”).
In either case, the concluding statements help the reader to comprehend the significance of your project and your decision to write about it.Since a lab report is argumentative—after all, you’re investigating a claim, and judging the legitimacy of that claim by generating and collecting evidence—it’s often a good idea to end your report with the same technique for establishing your main point.If you want to go the theoretical route, you might talk about the consequences your study has for the field or phenomenon you’re investigating.(Some folks consider this type of exploration “pure” as opposed to “applied” science, although these labels can be problematic.
) If you want to go the practical route, you could end by speculating about the medical, institutional, or commercial implications of your findings—in other words, answer the question, “What can this study help people to do?” In either case, you’re going to make your readers’ experience more satisfying, by helping them see why they spent their time learning what you had to teach them.Other resources Websites LabWrite Project 2000./labwrite A repository of great aids to writing successful lab reports, including pre- and post-lab checklists and a Microsoft Excel tutorial.University of Wisconsin-Madison Writing Center./writing Useful tables describing the content of each section and how to provide it.
Follow the links: “Handouts” to “Academic Writing” to “Writing Science Reports.” Books Publication Manual of the American Psychological Association.Commonly considered a handbook of formatting and other relatively minor issues (e.whether to represent numbers as numerals or words), but also features good tips for making your writing more professional in appearance and tone.See especially the first two chapters, “Content and Organization of a Manuscript” and “Expression of Ideas.
A Field Guide for Science Writers: the Official Guide of the National Association of Science Writers.New York: Oxford University Press, 1997.Extremely useful as an indicator of the expectations science readers have for professional-level writing.Lots of helpful material regarding formatting, but also includes more about stylistic choices than do the similar CBE and APA manuals.Chicago: University of Chicago Press, 1995.In many writers’ opinions, the best and most practical guide to the research process.
Leads the reader through all the stages of the research process, from developing a question into a problem that can be addressed, to planning and drafting, to revising for clarity and comprehension.The last three chapters are especially helpful.Preparing Scientific Illustrations: a Guide to Better Posters, Presentations, and Publications.
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Emphasis on presentations at conferences and similar forums, but also probably the most comprehensive discussion about designing tables and graphs.Scientific Style and Format: the CSE Manual for Authors, Editors, and Publishers.Cambridge: Cambridge University Press, 2006 Scientific American Science News Articles and Information.Cambridge: Cambridge University Press, 2006.
Like the APA manual, the CSE manual is most often regarded by writers as an encyclopedia of arcane formatting rules, but it does contain a good deal of information about science writing in general.(Note that this used to be called the CBE Manual; the organization that produces it was formerly called the Council of Biology Editors.Similar in topic and approach to Briscoe’s work mentioned above, but more readable and less exhaustive.A useful guide, particularly for writers who find visuals difficult to design or realize.How to Write and Publish a Scientific Paper.
Informative and entertaining guide to what editors look for in manuscripts (and what editors really hate in manuscripts as well).Very practical, relying heavily on anecdote to make points.Especially helpful to professional-level science writers, but undergraduates stand to learn from this one as well.
A Short Guide to Writing about Science.Short, true, but accomplishes a good deal in a slim volume.If you were to choose only one of the books listed here, this would probably be your best bet.
Covers almost all aspects of writing in the sciences in some detail-not as thoroughly as some of the specialty guides such as Briscoe’s or Davis’s, though.Targets primarily upper-level undergraduates and beginning researchers.Style: Ten Lessons in Clarity and Grace.The premier guide to improving writing style generally.Not aimed specifically at science writers, but all ten lessons will apply to some degree.Perhaps the best (and simplest) path to clearer, more interesting writing.
You may reproduce it for non-commercial use if you use the entire handout (just click print) and attribute the source: The Writing Center, University of North Carolina at Chapel Hill If you enjoy using our handouts, we appreciate contributions of acknowledgement.
Department of Sociology and Anthropology M. Focus on archaeology, cultural or biological anthropology.We’ll prepare you for a doctoral program or a career in the field.
The application deadline for Fall 2018 is January 10, 2018.Our department offers a 30-hour, two-year long graduate program culminating in the Master of Arts degree.Since we began offering the master’s degree in 2007, anthropology graduate students at NC State have distinguished themselves by conducting original research projects, presenting their findings at regional and national conferences and publishing their scholarly work as co-authors with program faculty.Our faculty conduct research across the globe in archaeology, biological anthropology and cultural anthropology, and have created opportunities for students to become involved in ongoing studies.
We prepare our students to enter top-ranked doctoral programs and to find satisfying careers in non-academic and applied settings.Applicants are encouraged to visit us in person either through the “Visit NC State Program” (applications due October 2, 2017) or on one of our visitation days: Friday, November 3 and Monday, November 13.Program Specializations We offer three anthropology program specializations to graduate students: Archaeology, Biological Anthropology and Cultural Anthropology.Students may pursue a stand-alone degree in Anthropology or a dual degree (for example, with the Masters of Arts in Teaching).Students may also combine their Anthropology degree with a concentration related to one of the “associated NC State resources” listed below.
Archaeology Archaeologists study past cultures through their material remains—from everyday objects to human remains to landscapes.Our archaeology graduate students develop a program of study based on holistic training in anthropology and interdisciplinary scholarship.We provide dedicated laboratory space for archaeological research and materials analysis.Graduate students may choose to construct a research project on a subject of their own choice in consultation with their advisor, or to gain training and expertise in the following areas: Omano Boom microscope with built in camera and Keyence VHX1100 digital microscope Hologic QDR-4500W Bone Density Scanner The Osteology Laboratory is equipped with hundreds of real and cast bones for student study.The lab also contains an ever-growing sample population of complete modern human skeletons available for both graduate and undergraduate analysis.
A library of the American Journal of Physical Anthropology (1973-latest) is also maintained in the osteology lab, as well as standard photography, microscopy and measurement equipment.The Teaching Laboratory offers a large, modern space for undergraduate and graduate study.The spacious tables can accommodate a full human skeleton for osteological analysis, providing enough room for an entire class of students to experience hands-on learning.The teaching lab also houses the department’s hominid and evolutionary fossil stone-tool and bone replicas – from the skulls of Lucy ( Australopithecus afarensis) to European Neanderthals, these unique casts are available to students and faculty.
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Equipped with a full suite of modern educational technology, the teaching lab is a great place for undergraduates and graduates to learn and study.
For access, please visit the graduate teaching assistants in the Osteology Lab, Park Shops 230, – open from 9:00am-5:00pm, M-F.Visit Us We welcome prospective students at any time Get lab report anthropology confidentiality A4 (British/European) College Freshman Academic 53 pages / 14575 words.Visit Us We welcome prospective students at any time.
To make sure all faculty are on hand to answer your questions, we have designed visitation days when we know faculty schedules will be open.Please, come tour our anthropology laboratories, meet with current students and faculty, and get to know the NCSU community! Let us know you will be stopping by! Contact the Director of the Anthropology Graduate Program, Dr Get writing services anthropology lab report privacy double spaced Custom writing 74 pages / 20350 words Graduate.Please, come tour our anthropology laboratories, meet with current students and faculty, and get to know the NCSU community! Let us know you will be stopping by! Contact the Director of the Anthropology Graduate Program, Dr.Nora Haenn:nora [email protected] schedule your visit.
Visitation Days for Fall 2017 Friday, November 3 and Monday, November 13 How to Apply Each year, we receive an average of 40 applications for our Fall admissions and admit an average of 12.For information on the application process, as well as upcoming visitation dates, read the information below.A completed application includes: transcripts, GRE scores, letters of recommendation, and a personal statement.A writing sample and CV are optional but encouraged.Please see the details in the list that follows:Transcripts: You will need to upload unofficial transcripts of all your academic course work since high school, including each institution of higher education you have attended.
You will only need to send official transcripts to the Graduate School if you are admitted. Do not send transcripts to the Graduate Program in Anthropology.Graduate Record Examination (GRE): We require the GRE.We do not have a cut-off point, although we especially seek applicants with combined verbal plus quantitative scores above 300 and a score of 4 or above on the Analytical Writing Examination.If your scores are not high, we may still admit you if other parts of your application are strong.
As with transcripts, we can evaluate your application with a photocopy or fax of the score report but eventually we will need an official report from the agency that administers the test.Letters of Recommendation: We require at least three recommendations.The Graduate School application packet includes a form for your references to use.This form only has a small space for comments.Please ask your references toa dd a letter in which they provide more detail.
Specifics about their experience with you are particularly informative.If you are not currently in school, please take care in selecting the people to write these letters.We need to know how you are likely to perform in an academic setting.Personal Statement: This is usually a relatively brief statement of about two pages.
We are especially interested to know how graduate training in anthropology fits into your intellectual and professional goals and plans.
Please indicate in your statement which of our program specializations you are most interested in and why.Writing Sample: We pay very careful attention to the example of your writing that you submit.We look for organization, use of evidence, logic of argument, and quality of analysis.Typical submissions include course papers and senior thesis chapters.We strong prefer writing samples of approximately 15-25 pages in length.
If you would like us to read part of a large work, you could attach an explanation of how the part relates to the whole.The deadline for Fall admissions isJanuary10th, with all supporting material so that the review committee can begin the review process in mid-January.We will ONLY accept materials submitted electronically.Please note that our program accepts full- and part-time students to begin their studies during the Fall semester only.We do not accept applications for Spring admissions.
The Anthropology graduate program will be accepting late applications until February 1, 2018.The Graduate School requires payment of a $75 application fee ($85 USD for International applicants).The Graduate School may waive the application fee based upon the applicant’s need and to achieve greater diversity for certain underrepresented groups.In requesting this waiver, you will need to contact the Graduate School (see contact information below).After admission, official transcripts should be sent to: