Societ english5 potx

When answering multiple-choice questions, make sure you have read the question carefully.. Conceptual understanding questions require you to read and understand the information provided

shake the foundations of understanding and lead to new

modes of thinking Thomas Kuhn, philosopher of

sci-ence, called such discoveries paradigm shifts

Here are some major advances in science

■ 420 B.C.: Hippocrates begins the scientific study

of medicine by maintaining that diseases have common causes

■ 260 B.C.: Archimedes discovers the principle of buoyancy

■ 180 A.D.: Galen studies the connection between paralysis and severance of the spinal cord

■ 1473: Copernicus proposes a heliocentric system

■ 1581: Galileo finds that objects fall with the same acceleration

■ 1611: Kepler discovers total internal reflection and thin lens optics

■ 1620: Francis Bacon discusses the principles of the scientific method

■ 1687: Newton formulates the laws of gravity

■ 1789: Lavoisier states the law of conservation of energy

■ 1837: Darwin uses natural selection to explain evolution

■ 1864: James Clerk Maxwell shows that light is an electromagnetic phenomenon

–H I S T O R Y A N D N AT U R E O F S C I E N C E –

NO W T H AT YO U have reviewed the information you need to know, it’s time to think about

strate-gies you can use at test time Throughout this chapter, you will review the structure of the science exam and learn specific tips you can use to improve your score on the test Read this chapter care-fully, and then review your notes from the science section When you are ready, move on to the practice ques-tions that follow

 M u l t i p l e - C h o i c e Q u e s t i o n s

The good thing about multiple-choice questions is that the answer is right in front of you All you need to do is find it, or at least eliminate some of the clearly wrong choices

At times, you may not be able to eliminate all four of the incorrect choices But there is no penalty for guess-ing on the GED If you can eliminate one of the wrong choices, you will have a 25% chance of guessguess-ing correctly, and that is still better than leaving it blank If you can eliminate three choices, you have a 50% chance of getting the question right

When answering multiple-choice questions, make sure you have read the question carefully Often, the ques-tion will ask you to chose a statement that is NOT true or find an excepques-tion to the rule

Tips and Strategies for the GED Science Exam

IN THIS chapter, you will briefly review some tips you can use on the

GED Science Exam Several tips apply to other sections of the GED

as well

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Even when you think you have found the correct

choice, quickly glance at the other choices to make sure

that no other choice is better or more specific Also,

check whether one of the choices is “All of the above.”

You may well have picked out a correct statement, but if

the rest of the statements are also correct, the answer

needs to be, “All of the above.”

 Ty p e s o f Q u e s t i o n s

Two types of questions appear on the GED—conceptual

understanding and problem solving

Conceptual understanding questions require you to

read and understand the information provided or to

recall basic knowledge you have acquired through prior

schooling or everyday life Read the question and

infor-mation provided along with it carefully Often, a

ques-tion will ask you to restate what was already said or to

make a generalization about the facts presented in a

pas-sage By reading carefully and making notes on a piece of

scratch paper as you go along, you increase your chances

of understanding the provided information correctly

Problem-solving questions require you to apply what

you have read or learned As you are studying for the

exam, when presented with a scientific fact, such as

“energy can be converted from one form to another,”

think about the situations in which that fact is apparent

Think about a car—using the chemical energy in the fuel

causes the car to move and the engine to heat Think

about how the fuel level decreases as the car moves

Where is the fuel going? What is happening to the

exhaust gases? The principles of science are all around

you By paying attention to them in your everyday life,

you will be better prepared to answer problem-solving

questions on the GED

 R e a d i n g a n d U n d e r s t a n d i n g

G r a p h i c s

About half of all GED Science questions include

ics By becoming familiar with different types of

graph-ics and learning about their essential components, you

will be better prepared to answer GED Science questions

that contain graphical information

When looking at a chart or a graph, look at the title or

caption first This will give you an overview of what the

graphic is showing Next, look at any legends or axis labels provided This will give you an idea of what vari-ables are shown Make a list of the varivari-ables Once you have done that, you can try to interpret the chart or graph by noting any trends you may see How is one vari-able changing in response to the other? Next, you can read the question and attempt to answer it Here is more specific information about graphics

Charts

All charts are composed of rows (horizontal) and columns (vertical) Entries in a single row of a chart usu-ally have something in common, and so do entries in a single column Determine what the common elements are when you try to answer the questions on the GED Science Exam

Graphs

Three common types of graphs are scatter plots, bar graphs, and pie graphs This section provides a brief description of each

Whenever a variable depends continuously on another variable, this dependence can be visually repre-sented in a scatter plot An example includes a change in

a property (such as human population) as a function of

time A scatter plot consists of the horizontal (x) axis, the vertical (y) axis, and collected data points for variable y, measured at variable x The variable points are often

connected with a line or a curve A graph often contains

a legend, especially if there is more than one data set or more than one variable A legend is a key for interpret-ing the graph Look at the sample graph above The

essential elements of the graph—the x- and y-axes—are

labeled The legend to the right of the graph shows that dots are used to represent the variable points in data set 1,

Graph Title

100 120 140

80 60 40 20 0

data set 1 data set 2

x-axis

–T I P S A N D S T R AT E G I E S F O R T H E G E D S C I E N C E E X A M–

while squares are used to represent the variable points in

data set 2 If only one data set exists, the use of a legend

is not essential

Bar graphs are similar to scatter plots Both have a

variable y plotted against a variable x However, in bar

graphs, data is represented by bars, rather than by points

connected with a line Bar graphs are often used to

indi-cate an amount or level, as opposed to a continuous

change Pie graphs are often used to show what

percent-age of a total is taken up by different components of that

whole

Diagrams

Diagrams could be used to show a sequence of events,

a chemical or biological process, the setup of a science

experiment, a phenomenon, the relationship between

different events or beings, and so forth When you see a

diagram, first determine its purpose What is it trying

to illustrate? Then, look at the different labeled parts of

the diagram What is their function? How are they

interrelated?

 R e a d i n g a n d U n d e r s t a n d i n g

S c i e n t i f i c P a s s a g e s

When reading a scientific passage, the most important

thing is to focus on the big picture, or on the subject of

the passage In many ways, the reading passages in the

science part of the GED are the same as the reading

pas-sages in other areas One important difference is that

sci-ence passages may expose you to scisci-ence jargon,

specialized vocabulary you may not be familiar with Try

not to let new words throw you off You may be able to

guess their meaning from the context Even if you can’t,

keep reading The questions following the passage may

not require you to understand that particular word

 S e r i e s o f Q u e s t i o n s B a s e d o n a

P a s s a g e o r G r a p h i c

On the GED, you will sometimes be asked more than one

question based on the same graphic or passage When

this is the case, it is worth your while to invest a little

more time to understand the graphic or passage Even if

you are unsure about the first one, try answering the

remaining questions—they may be easier for you

 E x p e r i m e n t S k i l l s

Experiments should be designed and conducted in accordance with the principles of the scientific method This means that the goal of the experiment should be carefully formulated and the experiment should be set

up to yield factual results Review the concepts of the sci-entific method in Chapter 22 if the tips included in this section are unfamiliar to you

Setting Up an Experiment

Experiments should be set up to test one clearly formu-lated and testable hypothesis The number of variables (things changing) in the experiment should be limited and carefully controlled If possible, experiments should contain a control group For example, if you were to study the effect of a new soil supplement on house plants, the soil supplement should not be used on a few plants, which will comprise the control group If there is improvement in the growth of only the plants on which the supplement was used, then there is strong indication that the supplement increases the plant growth If, how-ever, the plants in the control group grow as much as the plants on which the supplement was used, then the causes of growth most likely are not linked to the sup-plement In this example, there would be two variables— the use of the supplement and the plant growth How the supplement is administered and how plant growth is measured would need to be carefully described and controlled For example, the scientist conducting the experiment would need to decide whether the supple-ment would be administered once, several times, or every day throughout the experiment The scientist would also need to define what constitutes plant growth—the ver-tical increase, the number of new leaves, the growth of new branches and leaves, or some combination of these factors One choice is not necessarily better than the oth-ers Measuring the vertical growth wouldn’t necessarily

be worse than counting the number of new leaves Sci-entists must be consistent If the number of leaves is recorded one day on one plant, it should be recorded every day on all the other plants in the experiment

On the GED, you may be asked to pick out the best design for an experiment Before you look at the choices, determine the important variables and what would make

a good control Select the choice that contains these vari-ables, that has the most logical experimental control, and

in which the variables not studied are held constant

Interpreting Others’ Results

In some GED questions, you will be asked to interpret

others’ results You will need to make a generalization

about the results or draw a conclusion Don’t base your

answer of what you believe is right Base your answers on

the results provided Look at the choices given Some

could be inaccurate—if one part of the result doesn’t fit

the description in the choice, the choice is wrong (unless

words such as generally or in most cases make room for

exceptions) Make sure you don’t jump to conclusions A

trend doesn’t always indicate a cause and effect

relation-ship For example, every morning, your alarm clock goes

off, and every morning, you get hungry However, the

alarm clock is not what is making you hungry The two

events just happen to occur at the same time Before you

conclude that there is a cause and effect relationship on

the GED, consider other conclusions, and then pick the

most logical one

Analyzing Experimental Flaws

A common GED Science question requires you to

ana-lyze the flaws of an experiment Experiments should be

based on the scientific method Common experimental

flaws include:

■ not testing the hypothesis

■ having too many variables

■ unforeseen variables

■ lack of experimental control

■ jumping to conclusions

Applying Scientific Conclusions

What good is science if we don’t benefit from it? How

would the finding that keeping a laptop on your lap for

too long can damage your pelvic organs influence you?

You would not keep the laptop on your lap for too long,

right? Many questions on the GED require you to apply

a scientific conclusion, either to your personal life or to global phenomena These are almost always questions from the problem-solving category You are presented with a fact in one context and asked to apply it in another context For example, if you read in a passage about dif-ferent methods of determining the sides of the world in nature without a compass, you could be asked which of the methods would best work if you were in a particular situation—lost on a cloudy night in a forest, on the ocean on a clear day, etc If necessary, as you are reading information provided in the question, make quick dia-grams and summarize the important concepts on a piece

of scrap paper These strategies may help you visualize the concepts or the given situation and could help you make sense of the question

 O t h e r U s e f u l S k i l l s

The more material you are exposed to, the easier it will become to understand it Reading about science and applying science takes practice, just like riding a bike At first, you may be a bit clumsy with it, but if you stick with

it, you improve rapidly and it begins to click To compre-hend science better, read as much about science as you can—in newspapers, magazines, and on the Internet Make sure you look at graphics, as well As you are read-ing, think about what the passage or graphic, is commu-nicating to you What are the possible applications of the science concepts discussed? What can you conclude based

on the information given? What methods were used to arrive at the facts presented? Is anything presented an opinion or belief rather than a fact? Try to make up ques-tions about the passage or graphic you read Imagine that you are making up the GED: What could you ask the stu-dents? By anticipating the move of your opponent, you are better prepared to respond to it

–T I P S A N D S T R AT E G I E S F O R T H E G E D S C I E N C E E X A M–

 D i r e c t i o n s

Read the questions carefully and choose the best answer for each question Some questions may refer to a passage, illustration, or graph Be sure to answer every question; you will not be penalized for incorrect answers Do not spend too much time on any one question so you can be sure to complete all the questions in the allotted time Record your answers on the answer sheet provided on page 267 Make sure you mark the answer in the circle that corresponds to the question

Note: On the GED, you are not permitted to write in the test booklet Make any notes or calculations on a

sep-arate piece of paper

GED Science Practice

Questions

NOW IT’S time to put all that you have learned about science and

scientific inquiry into practice In the following section, you will find 75 multiple-choice questions like those you will find on the GED Science Exam

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