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How to Prepare
Tables and Other Study Aids
I find preparing tables to be a very
effective tool for learning.
The table provides a global view and
allows for easier comparisons of a particular characteristic for a number
of agents under study. However, tables can be very intimidating if a huge
number of objects are being compared at once.
To make the table friendly, I suggest that no more than 15 variables should be listed - and
at most, four agents should be compared in each table.
For example, if you have 12 agents
(bacteria, viruses, compounds etc) I would prepare three tables with four
agents per table. By dividing the display of the 12 agents on three pages,
the information will not look as intimidating (see table 1 where all 12
agents are listed - then compare with tables 2, 3 and 4 with four agents
per page).
Example Table 1
In this table 12 agents (A-L) are compared to nine characteristics in
the vertical column to the extreme left. In this manner 108 bits of
information are displayed. Frankly, I would find this to be very
intimidating and not reader friendly. In tables 2, 3 and 4 only four
agents are compared at a time and this a better approach for the
learner. Please see Tables 2-4 |
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Name of Agent: A-L |
A |
B |
C |
D |
E |
F |
G |
H |
I |
J |
K |
L |
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Morphology |
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Structural Components |
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Site(s) of replication |
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Extra cellular products |
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Diseases (produced) |
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Assays or clinical tests |
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Drug(s) of Choice |
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Opportunistic agents |
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References and date of entry |
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General comments |
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Example Table 2
Four agents (A-D) are compared with
respect to the characteristics listed (vertical column at the left of
the table) |
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Name of Agent: A-D |
A |
B |
C |
D |
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Morphology |
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Structural Components |
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Site(s) of replication |
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Extra cellular products |
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Diseases (produced) |
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Assays or clinical tests |
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Drug(s) of Choice |
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Opportunistic agents |
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References and date of entry |
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General comments |
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Example Table 3
Four agents (E-H) are compared with
respect to the characteristics listed (vertical column at the left of
the table) |
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Name of Agent: E-H |
E |
F |
G |
H |
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Morphology |
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Structural Components |
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Site(s) of replication |
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Extra cellular products |
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Diseases (produced) |
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Assays or clinical tests |
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Drug(s) of Choice |
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Opportunistic agents |
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References and date of entry |
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General comments |
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Example Table 4
Four agents (I-L) are compared with
respect to the characteristics listed (vertical column at the left of
the table) |
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Name of Agent: I-L |
I |
J |
K |
L |
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Morphology |
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Structural Components |
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Site(s) of replication |
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Extra cellular products |
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Diseases (produced) |
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Assays or clinical tests |
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Drug(s) of Choice |
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Opportunistic agents |
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References and date of entry |
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General comments |
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Table 5
In this case the table is modified to show selected information about
four states in the United States of America. This can be an
assignment in elementary school or you may have been selected to
appear on the Jeopardy television program. However, more specific
information is obtained about each of those four states and other
states below by clicking on the following link
http://www.infoplease.com/ipa/A0763765.html
To produce a
similar array for all 50 states in
one table
would not be reader friendly!
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States
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Alabama |
Alaska |
Arizona |
Arkansas |
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Population |
4,557,808 |
663,661 |
5,743,834 |
2,779,154 |
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Governor
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Bob
Riley |
Frank
H. Murkowski |
Janet
Napolitano |
Mike
Huckabee |
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Capital |
Montgomery |
Juneau |
Phoenix |
Little
Rock |
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# U.S.
Representatives
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7 |
1 |
8 |
4 |
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Nickname |
Yellowhammer
State |
The
Last Frontier or Land of the Midnight Sun |
Grand
Canyon State |
The
Natural State |
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motto |
Audemus
jura nostra defendere
(We dare defend our rights) |
North to the
Future |
Ditat
Deus
(God enriches) |
Regnat
populus
(The people rule) |
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State Flower |
camellia |
forget-me-not |
Saguaro
cactus
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appleblossom |
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State Bird |
yellowhammer |
Willow ptarmigan
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Cactus wren
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mockingbird |
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Table 5a
Testing your
recall of the information in Table 5
First
read the information in table 5, then several hours or days
later fill in the blanks in the table below. If you miss any of the
correct choices please review the information to ensure your complete
recall of the material.
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States
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Alabama |
Alaska |
Arizona |
Arkansas |
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Population |
4,557,808 |
663,661 |
5,743,834 |
2,779,154 |
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Governor
|
Fill in |
Frank
H. Murkowski |
Janet
Napolitano |
Fill in |
|
Capital |
Montgomery |
Fill in |
Phoenix |
Little
Rock |
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# U.S.
Representatives
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7 |
1 |
Fill in |
Fill in |
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Nickname |
Fill in |
The
Last Frontier or Land of the Midnight Sun |
Fill in |
The
Natural State |
|
motto |
Audemus
jura nostra defendere
(We dare defend our rights) |
Fill in |
Ditat
Deus
(God enriches) |
Regnat
populus
(The people rule) |
|
State Flower |
Fill in |
forget-me-not |
Saguaro
cactus
|
Fill in |
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State Bird |
yellowhammer |
Fill in
|
Fill in
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mockingbird |
As an alternative to the use of
tables, altering copies of the original lectures can be just as
beneficial.
As an illustration we will briefly
return to the learning objective on innate and adaptive immunity. In this
case you want to make sure that you do not forget the important points.
Therefore, you have made a copy of those objectives and you have
intentionally omitted words or phrases in the objectives (called altered
objectives).
Since you are a very diligent
student, you have re-read the objectives and 30 minutes later you test
your understanding by filling in the blanks in the distorted copy (the
altered objectives). This basic approach can be easily applied to any of
your subjects. If diagrams are involved, make or copy the original and
omit, include or delete information. Several hours, or days, later use the
altered copy to test your understanding of the information by comparing
your written responses to the original unaltered table and/or diagram etc.
Please see below:
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Example of "Unaltered
Objectives" |
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Innate immunity refers to antigen-nonspecific
defense mechanisms that a host uses immediately or within several
hours after exposure to an antigen
(def).
This is the immunity one is born with and is the initial
response by the body to eliminate microbes and prevent infection.
Unlike adaptive immunity, innate
immunity does not recognize every possible antigen. Instead, it is
designed to recognize a few highly conserved structures present
in many different microorganisms. The structures recognized
are called pathogen-associated molecular patterns and
include LPS from the gram-negative cell wall, peptidoglycan,
lipotechoic acids from the gram-positive cell wall, the sugar
mannose (common in microbial glycolipids and glycoproteins but
rare in those of humans), bacterial DNA, N-formylmethionine found
in bacterial proteins, double-stranded RNA from viruses, and
glucans from fungal cell walls. Most body defense cells have
pattern-recognition receptors for these common
pathogen-associated molecular patterns
(see Fig. 1)
and so there is an immediate response against the invading
microorganism. Pathogen-associated molecular patterns can also be
recognized by a series of soluble pattern-recognition receptors in
the blood that function as opsonins and initiate the complement
pathways. In all, the innate immune system is thought to recognize
approximately103 molecular patterns. All of this will
be discussed in greater detail in upcoming sections. |
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Example of "Altered
Objectives" Fill
in the information on the dotted lines after you have read the
unaltered objectives above to test your understanding of the
material. |
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Innate immunity refers to
defense
mechanisms that a host uses immediately or within several
.
after exposure to an antigen
(def).
This is the immunity one is born with and is the initial
response by the body to eliminate
.. infection.
Unlike adaptive immunity, innate
immunity
. possible antigen. Instead, it is
designed to recognize a few
.. structures present in many
different
. The structures recognized are called
pathogen-associated
.. and include LPS from the
. cell wall, peptidoglycan,
..acids from
the gram-positive cell wall, the sugar
.. (common in
microbial glycolipids and glycoproteins but rare in those of
humans), bacterial DNA, N-
..found in bacterial
proteins, double-stranded
.. from viruses, and glucans
from fungal cell walls. Most body defense cells have
pattern-recognition
.. for these common
pathogen-associated molecular patterns
(see Fig. 1)
and so there is an
response against the
invading microorganism. Pathogen-associated molecular patterns can
also be recognized by a series of soluble
.. in the
blood that function as
.. and initiate the complement
pathways. In all, the innate immune system is thought to recognize
approximately
molecular patterns. All of this will be discussed
in greater detail in upcoming sections. |
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