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Unit Eleven
QUANTUM PHYSICS
READING PASSAGE
Making macroscopic models
Science tries to explain a very complicated world. We are surrounded by very many
objects, moving around, reacting together, breaking up, joining together, growing and
shrinking. And there are many invisible things, too - radio waves, sound, ionizing radiation. If
we are to make any sense of all this, we need to simplify it. We use models, in everyday life
and in science, as a method of simplifying and making sense of everything we observe.
A model is a way of explaining something difficult in terms of something more familiar.
For example, there are many models used to describe how the brain works. It's like a
telephone exchange - nerves carry messages in and out from various parts of the body. It is
like a computer. It is like a library. The brain has something in common with all these things,
and yet it is different from them all. These are models, which have some use; but inevitably a
model also has its limitations.
You have probably come across various models used to explain electricity. We can not
see electric current in a wire, so we find different ways of explaining what is going on.
Current is like water flowing in a pipe. A circuit is like a central heating system. It is like a
train carrying coal from mine to power station. And so on. All of these models conjure up
some useful impressions of what electricity is, but none is perfect.
We can make a better model of electric current in a wire using the idea of electrons. Tiny
charged particles are moving under the influence of an electric field. We can say how many
there are, how fast they are moving and we can describe the factors that affect their
movement. This is a better model, but it is harder to understand because it is further from our
everyday experience. We need to know about electric charge, atoms, and so on. Most people
are happier with more concrete models; as your understanding of science develops, you
accept more and more abstract models.
Ultimately, you may have to accept a model that is purely mathematical - some equations
that give the right answer. Particles and waves are the two powerful and useful models. They

....………………………………………………………………………….......
2.

How can a model simplify a natural phenomenon?
...............................................................................................................................….….
.………..…………………………………………………………………....
3.

How many types of models are in use?
................................................................................................................................……
…………………………………………………………………………….....
4.

How many examples of models in use are mentioned?
.................................................................................................................................……
…………………………………………………………………………….....
5.

What are the most distinctive examples of models?
...............................................................................................................................……
…………………………………………………………………………….....
Exercise 2:
Find the words/ phrases in the reading text with similar meaning to the following
words/phrases.
1.

complex .........................................
2.

developing .........................................


……….Any phenomenon can be explained by two models.
2.

……….Any model is absolutely right in explaining a corresponding natural
phenomenon.
3.

……….Concrete models are associated with everyday life while the abstracts ones
are associated with scientific understanding of things.
4.

……….It’s easy to explain electricity with models.
5.

……….Both waves and particles can explain how the light travels.
6.

……….Mathematical equations always give right answers to any predictions.
7.

……….Light behaved as a particle model.
8.

……….Young rejected Newton’s explanation about light using particle model.
9.

……….Young was successful in describing light to behave as a wave.
10.



A perfect infinitive refers to something happening before the time of the one in the
main clause

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Example
: It seems to have been proved that light behaves as a particle.
(The seeming is in present, but the proof is in the past)
c.

A continuous infinitive refers to something happening over time
Example
: It’s very strange for him to be succeeding in this experimental test.
(This means He’s succeeding now)
3. Functions of the infinitive
a.

To –infinitive can function as a subject
To- infinitive on its own or with object and adverbial, as a clause, can function as a
subject.
Example:
1.

To jump with a scale would be awkward (and dangerous).
2.

To conduct such a dangerous experiment requires great precautions.
b.

To-infinitive can function as a complement

lovely, terrible, awful, dreadful, horrible.
Adjectives in –ing
: interesting, exciting, depressing, confusing, embarrassing,
amusing
Difficulty, danger and expense:
easy, difficult, hard, convenient, possible,
impossible, safe, dangerous, cheap, expensive.
Necessity:
necessary, vital, essential, important, advisable, better/best
Frequency:
usual, normal, common, rare
Comment
: strange, odd, incredible, natural, understandable
Personal qualities
: good, nice, kind, helpful, mean, generous, intelligent,
sensible, right, silly, stupid, foolish, careless, wrong, polite, rude

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-
Among those above adjectives, only those meaning ‘good’ or ‘bad’ and those of
difficulty, danger, and expense can be used in the pattern of the example two.
-
With many adjectives, you can use the pattern:
It’s + adjective+ for somebody + to-infinitive
Example:
1.

It’s important
for
you to complete all the observations before writing a report.

wonderful
wrong

-
We can use too and enough with a quantifier, adjective or adverb in the above
patterns:
Example:
1.

It is true that the flame of your alcohol burner is hot enough to produce the spectra of
sodium, lithium, calcium, copper, and a few other elements, but that is not hot enough to
produce the other spectra of elements, such as oxygen and chlorine.
2.

This bit of evidence was (much) enough to challenge Robert Bunsen, the German
chemist, to search for a new element in the water. (there are two to-infinitive in this
case, the former one is the complement, the latter one is the direct object for the first
one, see
c
bellow )
3.

It’s too dangerous
for
him to conduct such an experiment.
b.3.
As a complement after some nouns
Example:
1.


3.

This new revelation prompted another physicist to remark, "The device must also
attract the glass!" (In this case the subject of the to-infinitive is another physicist)
4.

I merely wish to emphasize mankind's present level of ignorance of the mechanics of
our universe.
5.

The spectroscope thus enables us to distinguish one element from another. (the
subject of the to-infinitive clause is implied in
us
)
Here are the common verbs that take to-infinitive as direct object
afford (have
enough
time/money)
agree
aim
arrange
ask
attempt
beg
can’t wait
train
choose
claim
dare
decide

1.

This lack of movement might seem to be strangest of all, for we humans are used to
motion.
2.

The difference in pressure cause, what appears to be, an attraction.
3.

While in free fall, things seem to have no weight relative to each other.

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In these cases, the to-infinitive say something about the truth of the statement, or the
manner or time of the action. In some cases, empty
it
can be used as the subject-
It
seems that
he has got success in his research.
d.
To-infinitive can follow question word/phrase to form an objective clause (refer
to Grammar in Use-UNIT SIX)
Example:
1.

Please make sure when to start the observations.
2.

We should know how high the temperature to be kept for the substance to react
completely in the reaction.


To describe motion accurately, we use rates.
2.

It takes accurate measurements of the positions of spectral lines to identify an
element.
3.

We can use this fact and the formula F
net
= ma to find the weight of an object
4.

To measure your weight you can use a bathroom scale
Result:
(this way of expressing is unusual)

1.

He made so many observations only to find that he was unsuccessful.
f.
A to-infinitive can replace a relative clause:
f.1.
A to-infinitive can follow a ordinal number to replace a relative clause
Example:
1.

Galileo Galilei (1564-1642) was the first to understand how earth’s gravity affects
things near the surface of our planet.
2.

perception.
Example:
1.

You know that things will fall if you let them go off your hands.
2.

In a solar eclipse, with your unaided eyes, you can not see the Moon cover the
Sun.
PRACTICE
Exercise 1:
Choose the correct infinitive form of the verbs given in parentheses. Give your
explanation
1.

For the interference pattern (appear)……………….. on viewing screen C, the light
waves reaching any point P on the screen must have a phase differences that does not
vary in time.
2.

If you look closely at your fingernail in bright sunlight, you can see a faint
interference pattern called speckle that causes the nail (appear)…………….. covered
with specks. You see this effect because light waves scattering from very close points
on the nail are coherent enough (interfere)……………… with one another at your
eye.
3.

(get)…………….. coherent light, we have to send the sunlight through a single slit;
because that single slit is small, the light that passes through it is coherent.
4.