Title: Excursions in Modern Mathematics Sixth Edition
1Excursions in Modern MathematicsSixth Edition
2Chapter 4The Mathematics of Apportionment
3The Mathematics of ApportionmentOutline/learning
Objectives
- To state the basic apportionment problem.
- To implement the methods of Hamilton, Jefferson,
Adams and Webster to solve apportionment
problems. - To state the quota rule and determine when it is
satisfied. - To identify paradoxes when they occur.
- To understand the significance of Balanski and
Youngs impossibility theorem.
4The Mathematics of Apportionment
- 4.1 Apportionment Problems
5The Mathematics of Apportionment
Apportion- two critical elements in the
definition of the word
- We are dividing and assigning things.
- We are doing this on a proportional basis and in
a planned, organized fashion.
6The Mathematics of Apportionment
Table 4-3 Republic of Parador (Population by
State)
The first step is to find a good unit of
measurement. The most natural unit of
measurement is the ratio of population to
seats. We call this ratio the standard divisor SD
P/M SD 12,500,000/250 50,000
7The Mathematics of Apportionment
Table 4-4 Republic of Parador Standard Quotas
for Each State (SD 50,000)
For example, take state A. To find a states
standard quota, we divide the states population
by the standard divisor Quota population/SD
1,646,000/50,000 32.92
8The Mathematics of Apportionment
- The states. This is the term we will use to
describe the players involved in the
apportionment. - The seats. This term describes the set of M
identical, indivisible objects that are being
divided among the N states. - The populations. This is a set of N positive
numbers which are used as the basis for the
apportionment of the seats to the states.
9The Mathematics of Apportionment
- Upper quotas. The quota rounded down and is
denoted by L. - Lower quotas. The quota rounded up and denoted
by U. - In the unlikely event that the quota is a whole
number, the lower and upper quotas are the same.
10The Mathematics of Apportionment
- 4.2 Hamiltons Method and the Quota Rule
11The Mathematics of Apportionment
- Hamiltons Method
- Step 1. Calculate each states standard quota.
12The Mathematics of Apportionment
- Hamiltons Method
- Step 2. Give to each state its lower quota.
13The Mathematics of Apportionment
- Step 3. Give the surplus seats to the state with
the largest fractional parts until there are no
more surplus seats.
14The Mathematics of Apportionment
- The Quota Rule
- No state should be apportioned a number of seats
smaller than its lower quota or larger than its
upper quota. (When a state is apportioned a
number smaller than its lower quota, we call it a
lower-quota violation when a state is
apportioned a number larger than its upper quota,
we call it an upper-quota violation.)
15The Mathematics of Apportionment
- 4.3 The Alabama and Other Paradoxes
16The Mathematics of Apportionment
- The most serious (in fact, the fatal) flaw of
Hamilton's method is commonly know as the Alabama
paradox. In essence, the paradox occurs when an
increase in the total number of seats being
apportioned, in and of itself, forces a state to
lose one of its seats.
17The Mathematics of Apportionment
- With M 200 seats and SD 100, the
apportionment under Hamiltons method
18The Mathematics of Apportionment
- With M 201 seats and SD 99.5, the
apportionment under Hamiltons method
19The Mathematics of Apportionment
- The Hamiltons method can fall victim to two
other paradoxes called - the population paradox- when state A loses a seat
to state B even though the population of A grew
at a higher rate than the population of B. - the new-states paradox- that the addition of a
new state with its fair share of seats can, in
and of itself, affect the apportionments of other
states.
20The Mathematics of Apportionment
21The Mathematics of Apportionment
- Jeffersons Method
- Step 1. Find a suitable divisor D. A suitable
or modified divisor is a divisor that produces
and apportionment of exactly M seats when the
quotas (populations divided by D) are rounded
down.
22The Mathematics of Apportionment
- Jeffersons Method
- Step 2. Each state is apportioned its lower quota.
23The Mathematics of Apportionment
- Bad News- Jeffersons method can produce
upper-quota violations! - To make matters worse, the upper-quota
violations tend to consistently favor the larger
states.
24The Mathematics of Apportionment
25The Mathematics of Apportionment
- Adams Method
- Step 1. Find a suitable divisor D. A suitable
or modified divisor is a divisor that produces
and apportionment of exactly M seats when the
quotas (populations divided by D) are rounded up.
26The Mathematics of Apportionment
- Adams Method
- Step 2. Each state is apportioned its upper quota.
27The Mathematics of Apportionment
- Bad News- Adams method can produce lower-quota
violations! - We can reasonably conclude that Adams method is
no better (or worse) than Jeffersons method
just different.
28The Mathematics of Apportionment
29The Mathematics of Apportionment
- Websters Method
- Step 1. Find a suitable divisor D. Here a
suitable divisor means a divisor that produces an
apportionment of exactly M seats when the quotas
(populations divided by D) are rounded the
conventional way.
30The Mathematics of Apportionment
- Step 2. Find the apportionment of each state by
rounding its quota the conventional way.
31The Mathematics of Apportionment
Conclusion
- Covered different methods to solve apportionment
problems - named after Alexander Hamilton, Thomas
Jefferson, John Quincy Adams, and Daniel Webster. - Examples of divisor methods
- based on the notion divisors and quotas can be
modified to work under different rounding methods -
32The Mathematics of Apportionment
Conclusion (continued)
- Balinski and Youngs impossibility theorem
- An apportionment method that does not violate
the quota rule and does not produce any paradoxes
is a mathematical impossibility.