Neutral vs. Charged Objects
As discussed in a previous section of Lesson 1, atoms are the building blocks of matter. There are different types of
atoms, known as elements. Atoms of each element are distinguished from each
other by the number of protons that are present in their nucleus. An atom
containing one proton is a hydrogen atom (H). An atom containing 6 protons is a
carbon atom. And an atom containing 8 protons is an oxygen atom.
The number of electrons that surround the nucleus will
determine whether or not an atom is electrically charged or electrically
neutral. The amount of charge on a single proton is equal to the amount of
charge possessed by a single electron. A proton and an electron have an equal
amount but an opposite type of charge. Thus, if an atom contains equal numbers
of protons and electrons, the atom is described as beingelectrically neutral. On the other hand, if an atom has an unequal
number of protons and electrons, then the atom is electrically charged (and in
fact, is then referred to as an ion rather than an atom). Any particle, whether an
atom, molecule or ion, that contains less electrons than protons is said to be positively
charged. Conversely, any particle that contains more
electrons than protons is said to be negatively charged.
|
Charged versus Uncharged
Particles |
||
|
Positively Charged |
Negatively Charged |
Uncharged |
|
Possesses
more protons than electrons |
Possesses
more electrons than protons |
Equal
numbers of protons and electrons |
Charged
Objects as an Imbalance of Protons and Electrons
In the previous section of Lesson 1, an atom was described as being a small and dense core of positively
charged protons and neutral neutrons surrounded by shells of negatively charged
electrons. The protons are tightly bound within the nucleus and not removable
by ordinary measures. While the electrons are attracted to the protons of the
nucleus, the addition of energy to an atom can persuade the
electrons to leave an atom. Similarly, electrons within atoms of other
materials can be persuaded to leave
their own electron shells and become members of the
electrons shells of other atoms of different materials. In short, electrons are
migrants - constantly on the move and always ready to try out a new atomic
environment.
All objects are composed of these atoms. The electrons contained within
the objects are prone to move or migrate to other objects. The process of an
electron leaving one material object to reside (perhaps only temporarily) in
another object is a common everyday occurrence. Even as you read the words of
this web page, some electrons are likely moving through the monitor and
adhering to your clothing (assuming that you are using this resource online)
(and wearing clothes). If you were to walk across the carpeting towards the
door of the room, electrons would likely be scuffed off the atoms of your shoes
and moved onto the atoms of the carpet. And as clothes tumble in the dryer, it
is highly likely that electrons on one piece of clothing will move from the
atoms of the clothing onto the atoms of another piece of clothing. In general,
for electrons to make a move from the atoms of one material to the atoms of
another material, there must be an energy source, a motive, and a low-resistance pathway.
The cause and mechanisms by which this movement of electrons
occurs will be the subject of Lesson 2. For now, it is
sufficient to say that objects that are charged contain unequal numbers of
protons and electrons. Charged objects have an imbalance of charge - either
more negative electrons than positive protons or vice versa. And neutral
objects have a balance of charge - equal numbers of protons and electrons. The
principle stated earlier for atoms can be applied to objects. Objects with more
electrons than protons are charged negatively; objects with fewer electrons
than protons are charged positively.
In this discussion of electrically charged versus
electrically neutral objects, the neutron has been neglected. Neutrons, being
electrically neutral play no role in this unit. Their presence (or absence)
will have no direct bearing upon whether an object is charged or uncharged.
Their role in the atom is merely to provide stability to the nucleus, a subject
not discussed in The Physics Classroom. When it comes to the drama of static
electricity, electrons and protons become the main characters.
Charge
as a Quantity
Like mass, the charge of an object is a measurable quantity.
The charge possessed by an object is often expressed using the scientific unit
known as the Coulomb. Just as mass is measured in grams or
kilograms, charge is measured in units of Coulombs (abbreviated C). Because one
Coulomb of charge is an abnormally large quantity of charge, the units of microCoulombs (µC) or nanoCoulombs (nC) are more commonly used as the unit of measurement of
charge. To illustrate the magnitude of 1 Coulomb, an object would need an
excess of 6.25 x 1018 electrons to have a total charge of -1 C. And
of course an object with a shortage of 6.25 x 1018 electrons
would have a total charge of +1 C.
The charge on a single electron is -1.6 x 10 -19 Coulomb. The charge on a single proton is +1.6
x 10 -19Coulomb. The quantity of charge on an object
reflects the amount of imbalance between electrons and protons on that object.
Thus, to determine the total charge of a positively charged object (an object
with an excess of protons), one must subtract the total number of electrons
from the total number of protons. This operation yields the number of excess
protons. Since a single proton contributes a charge of +1.6 x 10-19 Coulomb to
the overall charge of an atom, the total charge can be computed by multiplying
the number of excess protons by +1.6 x 10 -19 Coulomb. A similar process is used to determine
the total charge of a negatively charged object (an object with an excess of
electrons), except that the number of protons is first subtracted from the
number of electrons.
This principle is illustrated in the following table.
|
Object |
# of Excess Protons/Electrons |
Quantity and Kind of Charge
(Q) on Object in Coulombs (C) |
|
A |
1 x 106 excess electrons |
-1.6 x 10-13 C |
|
B |
1 x 106 excess protons |
+1.6 x 10-13 C |
|
C |
2 x 1010 excess electrons |
-3.2 x 10-9 C |
|
D |
3.5 x 108 excess protons |
+5.6 x 10-11 C |
|
E |
4.67 x 1010 excess electrons |
-7.5 x 10-9 C |
In conclusion, an electrically neutral object is an object
that has a balance of protons and electrons. In contrast, a charged object has
an imbalance of protons and electrons. Determining the quantity of charge on
such an object involves a counting process; the total number of electrons and protons are compared to determine
the difference between the number of protons and electrons. This difference is
multiplied by 1.6 x 10 -19 Coulombs
to determine the overall quantity of charge on the object. The type of charge
(positive or negative) is determined by whether the protons or the electrons
are in excess.
Check Your Understanding
Use your understanding of charge to answer the following
questions. When finished, click the button to view the answers.
1. TRUE or FALSE: An object that is positively charged contains all protons and no
electrons.
Answer: False
Positively
charged objects have electrons; they simply possess more protons than electrons.
2. TRUE or FALSE: An object that is negatively charged could contain only electrons with
no accompanying protons.
Answer: False
Negatively
charged objects have protons; it's just their number of electrons is greater
than their number of protons.
3. TRUE or FALSE: An object that is electrically neutral contains only neutrons.
Answer: False
Electrically
neutral atoms simply possess the same number of electrons as protons. This
gives the objects a balance of both type of charge.
4. Identify the following particles as being charged or
uncharged. If charged, indicate whether they are charged positively or
negatively. (n = neutron, p = proton, e = electron)
Answers:
a. Charged
Negatively
There are 11
electrons and 10 protons. This results in an imbalance of charge. With more
electrons than protons, the particle is negatively charged.
b. Uncharged
There are 11
electrons and 11 protons. This results in a balance of charge. This particle is
neutral or uncharged.
c. Charged Positively
There are 18 electrons and 20 protons. This results in an
imbalance of charge. With more protons than electrons, the particele is positively charged.
5. Consider the graphic at the right of a neutral oxygen atom.
a.
Explain what must happen in order for the oxygen atom to become negatively
charged.
b. Explain what must happen in order for the oxygen atom to
become positively charged.
Answers: a. Gain electrons AND b. Lose electrons
Protons are
tightly bound in the nucleus and can be neither gained nor loss. So any change
in the charge of an atom is due to changes in its electron count. If a neutral
atom gains electrons, then it will become negatively charged. If a neutral atom
loses electrons, then it becomepositively
charged.
6. Determine the quantity and type of charge on an object
that has 3.62 x 1012 more protons than electrons.
Answer: +5.8 x 10^-7 Coulombs (rounded)
To determine the
charge on an object, determine the number of excess protons or excess
electrons. Multiply the excess by the charge of an electron or the charge of a
proton - 1.6 x 10-19 C. Finally, adjust the sign of the object
to + or -.
7. Complete the following statements:
After some rather exhausting counting (and a rather tall
tale), a physics teacher determines that a very small sample of an object contains ...
a. ... 8.25749 x 1017 protons
and 5.26 x 1014 electrons; the charge on this object is ____
Coulombs.
b. ... 3.12 x 1014 protons
and 4.5488 x 1016 electrons; the charge on this object is ____
Coulombs.
c. ... 2.40277 x 1019 protons
and 9.88 x 1016 electrons; the charge on this object is ____
Coulombs.
d. ... 2.6325 x 1015 protons
and 2.6325 x 1015 electrons; the charge on this object is ____
Coulombs.
Method: Subtract the smaller number from the larger number.
(This would be based upon the exponent.) Then multiply the difference by the
charge of a proton or electron - 1.6 x 10-19 C.
Answers:
a. 0.132 C
b. 0.00723 C (7.23 x 10-3 C)
c. 3.83 C
d. 0 Coulombs
(Someone could
make a stronger case for the answer "impossible to tell" since the
proton and electron count is not very precise. Given how the numbers are
expressed, it is possible that there are 1021 more protons than electrons or
67439 more electrons than protons or ... .
But this is another topic.)
8. The amount of charge carried by a lightning bolt is
estimated at 10 Coulombs. What quantity of excess electrons is carried by the
lightning bolt?
Answer: 6.25 x 1019 electrons
Multiply the
charge in Coulombs (10 C) by the conversion factor: (1 electron) / (1.6 x 10-19 C).
The units of C cancel; the answer is in electrons.
9. Respond to the following student statement:
"A positively charged object is an object that has an
excess of positive electrons."
"I'll bet you 20 bucks you're wrong." or "No
Way!" or ...
Electrons are
not positively charged. Positively charged objects have an excess of protons
(which are positively charged).