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Structure of the
written report
Hints
Spreadsheets
Style and
grammar
I.
STRUCTURE OF THE WRITTEN REPORT
Audience: Plan on writing for a technical
manager who already understands the experimental
objectives and fundamentals (these should be
detailed in the planning report and appended to the
memo report). The grading
sheet that we will
use is provided for your information.
Length: 10 pages of double-spaced text or
less not including figures and appendices.
What to
omit: do not include
a letter of transmittal or a table of
contents
What to include:
The written report
should consist of the following sections (in this
order):
 A title page: This must be a separate
page. Include a descriptive title (limit to
10 words), author, lab section, team members, date,
experiment number (1-3). This page must be
the only one containing information identifying the
author and team. Don't include identifying
information in any of the headers or
footers.
An "Introduction"
section: Describe the
project objectives in a few sentences.
A "Materials and Methods"
section: Describe the
equipment, materials, and procedures you used.
Provide one or more schematics (not included in the
page limit). The description must be
sufficiently detailed to allow a knowledgeable
person to reproduce your results.
A "Results" section: Present your major results (in the
form of graphs and/or tables), including estimated
uncertainties. Do not interpret or analyze in this
section. Do not put lengthy data or results tables
here, they belong in the appendices. Use the
appropriate number of significant figures.
A "Discussion" section: Here you will interpret and analyze
your results. This is the most important
section! The following example notes trends but
lacks sufficient "interpretation":
"The data in Tables 1.1 and
1.2 show that for gases at low density, the
viscosity increases with increasing temperature.
For liquids, on the other hand, the viscosity
usually decreases with increasing temperature.
"
Here is an "interpretation"
of the above trends:
"This difference in
temperature dependence is understandable from a
molecular viewpoint. In gases, the molecules are
free and travel long distances between collisions
to transfer momentum (hence the low viscosity). As
temperature increases, the mean molecular speed of
the gas increases. This in turn increases the
frequency of gas collisions and therefore increases
the momentum transfer or viscosity. In liquids, the
molecules are not free but closely packed into a
'cage' which prevents them from easy motion. Hence
liquids are more viscous than gases. As temperature
increases, there is more energy for each molecule
to escape this cage and move more freely. Thus, the
viscosity of liquids decreases with increasing
temperature."
Since the above is
well-established, you could also say:
"These trends agree with the
standard molecular models of viscosity in gases and
liquids [ref.]." and provide an appropriate
literature citation.
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A "Conclusions"
section. Summarize
your findings. Relate them to the objectives (as
stated in your Introduction). Each conclusion
must follow logically from information in the
results and discussion sections.
A "Recommendations"
section. Recommend
further action, experiments or improvements as
needed. If desired, you may combine with this
section with the "Conclusions" section.
A "Literature cited" section.
This section lists
all the literature cited in the report (including
figures, equations, and theory). For example, the
following sentence might appear in the
Introduction. "In a tube of circular cross-section,
the velocity profile of a Newtonian liquid in
fully-developed, laminar flow is parabolic [1]."
Number citations (in square brackets) and list them
in the order you use them in the text. For each
citation, use the following convention, which is
standard for the AIChE Journal:
(for books)
1. Bird, R.B., W. E. Stewart,
and E. N. Lightfoot, Transport Phenomena, p. 42-47,
126-130, John Wiley and Sons, Inc., New York
(1960).
(for journal articles)
2. Grafton, R. W., "Loss of
brain mass due to excessive reading of student
laboratory reports", Chem. Eng. Edu., 18, 457
(1963).
Always include page number(s)
when citing books to point the reader to the
appropriate section.
Appendices. These include:
- The Planning Report.
Include any corrections resulting from the planning
conference. These may be hand-written on a
copy of the original report.
- Data and Results. Tabulate
all data collected by the team, and all results
derived from these. This information is a detailed
version of your "Results" section.
- Sample Calculations. Show
how you performed each calculation (including error
propagation and statistical analysis). Organize in
sections by calculation type, with a descriptive
title. Work through the calculation step-by-step
for a typical case, first symbolically, then with
numerical values (making it clear which raw data
and/or literature values you are using). Include
dimensions of all numerical values and
results. We encourage neat, handwritten work
(it usually takes much longer to do this using a
word processor).
- Signed data sheets.
Must contain all the raw data. It must be
legible, logically organized, allowing us to trace
any result back to the raw data.
- Supplementary Information
(optional). Items that support your results but are
too detailed or lengthy to include in the main
body, such as a computer code. Organize by sections
with descriptive titles. Each section must contain
enough explanation to stand on its own.
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II. HINTS
Sample
calculations
We encourage you
to use a spreadsheet for repetitive calculations,
but you must provide a separate step-by-step
procedure in detail for each type of
calculation. As a test, ask yourself, "Could
someone else easily use my procedures or my data to
reproduce my results?" If not, make your
sample calculations clearer.
Include units
with all values and make sure the unit conversions
work out.
Give full source
citations for all literature data, including page
number and year of publication.
Materials and
Methods
Highlight the key
aspects of your procedure. What steps are
critical in order to get good results? Be
specific about quantities used, key dimensions,
etc.
Equations and background
material
Give a reference
unless the equation is common knowledge (such as
the Ideal Gas Law) or you derive it. Include
only the important equations in the body of your
report.
You aren't
writing a textbook. Include only the
essential background. We don't want a
discourse on the subject area. Instead, show
us that you understand the subject by doing a good
job on the data analysis and interpretation.
Nomenclature
If you include a
list of nomenclature, give the units for each
symbol. This often helps to clarify your
intent. If dimensionless, say so.
Interpretation
Generalize your
results and point out important trends.
Do your best to
explain anomalies in your results. Do not
just speculate: back up your ideas with
order-of-magnitude calculations, error propagation
analysis, and/or literature
values.
Address the
assignment you were given. Do notjust state
the results. Interpret them and put them in
perspective for the intended audience.
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III. SPREADSHEETS
Organization
Keep raw data
(actual readings you obtained) separate from things
you calculated based on them. Include
self-explanatory headings with units.
Use worksheets as
needed to contain a group of related data and/or
calculations. Put the most important
worksheets first so they stand out. Use a
descriptive label on the worksheet tabs.
It is possible to
overdo this. Too many sheets can be
confusing.
The basis for all
calculations (including error analysis) must be
documented in separate sample calculations.
Formatting
Use formatting
(shading, borders) to set off raw data from
calculated quantities, to distinguish one "run"
from another, etc.
Insert comments
to provide additional explanation of unusual
features.
Insert extra text
in cells to help the reader understand what you are
doing.
Control the
number of significant figures displayed!!!
This is especially important for measured values,
but also for calculated results.
Be judicious with
error bars. They're important, but can be
overdone.
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III. STYLE AND GRAMMAR
Tense
Person
Equations
Abbreviations
Tables
Figures
and graphs
Numbers
Tense
Use past tense to describe
things that you did or that happened. For instance:
"The measured pressure drop was 2 kPa.
Consequently, we decreased the flow rate." Use
present tense to describe things that remain true.
For instance: "The viscosity of air decreases with
increasing temperature." Avoid changing tense
within a paragraph.
Person
Most books on technical
writing say that you should avoid use of the first
person. If in doubt, that is good advice, but the
first person, particularly the use of we, does have
a place in technical writing if done in moderation.
"We" can make a report seem less stuffy than
repeated use of the passive voice. For example, you
might say, "We only studied fully turbulent,
incompressible flow..." instead of "This work is
restricted to consideration of fully turbulent
..."
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Equations
Write equations on a line
separate from the text. Number them consecutively,
with the number in parentheses flush with the right
hand margin. Define new symbols immediately
following each equation. When referring to a
particular equation, abbreviate "equation" as "Eq."
"The use of Eq. 5 is ..." Don't abbreviate
"Equation" when it is the first word of a sentence,
however.
Abbreviations
Avoid
abbreviations where possible.
Abbreviate units
of measure only when preceeded by a number.
The abbreviations
of an SI unit should not be followed by a period
unless it is the end of a sentence.
Abbreviations are
usually in lower case letters, but there are
exceptions. If in doubt, consult a dictionary.
Exceptions include Chap., Eq., Fig., Hz, pH, A
(ampere), K, J (joule), V (volt).
Do not use
contractions in your report.
The "standard"
AIChE symbol for a dimensionless group is an upper
case N followed by a subscript (NRe, for example).
We prefer the practice of most other organizations:
an appropriate capital letter and one lower case
letter, such as:
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Reynolds
number
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Re
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Prandtl
number
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Pr
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Peclet number
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Pe
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Schmidt
number
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Sc
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Nusselt
number
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Nu
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Tables
Tables should have a title
and be numbered in sequence. Place short tables
within the text. Long tables should appear on a
separate page and should follow the page on which
they are mentioned. Give units for all column
headings. Footnotes may be included at the bottom
of tables.
Figures and Graphs
Figures should be
computer-generated. Number graphs serially with all
other figures. All figures and graphs should have a
title. Titles should be descriptive, not merely a
statement of the variables appearing on the
ordinate and abscissa. Thus "Friction Factor vs.
Reynolds Number" is not a good title. A better one
might be "Friction Factor for Turbulent Flow in
Smooth Tubes." A figure may be embedded in the text
or follow the page on which it is first
mentioned.
Center graphs on
a page with adequate margins. Label the axes
clearly, show the scale and its units and adjust
the scale to facilitate the reading of the data.
Experimental points may be small circles,
triangles, or other shapes. Use horizontal or
vertical error bars to indicate the magnitude of
the uncertainty in plotted points. You should
usually place a smooth, best-fit curve through the
points. Show an extrapolation of a curve as a
dotted or broken line.
Sometimes smooth
curves are illogical. In that case connect points
with straight line segments. For example, graphs
showing accumulation over intervals of time vs.
time, such as yearly production curves, are often
plotted this way.
If the objective
is to compare sets of data, either superimpose them
on a single graph or use multiple graphs with the
same scales for the abscissas and ordinates.
Use the same
convention for abbreviation (Fig.) as for equations
(see above).
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Numbers
Write small
integers (zero to nine) as words (e.g., "three
repetitions," not "3 repetitions"). Write all
others as numbers, unless they begin a sentence.
Exception: write
the small integers as numbers when they are
followed by a unit of measurement, or when many
numbers appear in one paragraph .
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