ideal

Dictionary: i·de·al (ī-dē'əl, ī-dēl') pronunciation

A conception of something in its absolute perfection.
One that is regarded as a standard or model of perfection or excellence.
An ultimate object of endeavor; a goal.
An honorable or worthy principle or aim.

adj.

1. Of, relating to, or embodying an ideal.
2. Conforming to an ultimate form or standard of perfection or excellence.
Considered the best of its kind.
Completely or highly satisfactory: The location of the new house is ideal.
1. Existing only in the mind; imaginary.
2. Lacking practicality or the possibility of realization.
Of, relating to, or consisting of ideas or mental images.
Philosophy.
1. Existing as an archetype or pattern, especially as a Platonic idea or perception.
2. Of or relating to idealism.

[From Middle English, pertaining to the divine archetypes of things, from Late Latin ideālis, from Latin idea, idea. See idea.]

SYNONYMS ideal, example, exemplar, model, standard, pattern. These nouns refer to someone or something worthy of imitation or duplication. An ideal is a sometimes unattainable standard of perfection: "Religion is the vision of . . . something which is the ultimate ideal, and the hopeless quest" (Alfred North Whitehead). An example can refer to something that is worthy of imitation but can also indicate something that serves as a deterrent or warning: "Our Government is the potent, the omnipresent teacher. For good or for ill, it teaches the whole people by its example" (Louis D. Brandeis). An exemplar, like a model, serves as an ideal example by reason of being either very worthy or truly representative of a type, admirable or otherwise: "He is indeed the perfect exemplar of all nobleness" (Jane Porter). "Our fellow countryman is a model of a man" (Charles Dickens). A standard is an established criterion or recognized level of excellence: "It wouldn't be quite fair to test him by our standards" (William Dean Howells). A pattern serves as a model, plan, or guide in the creation of something: "I will be the pattern of all patience" (Shakespeare).

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Thesaurus: ideal

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noun

One that is worthy of imitation or duplication: beau ideal, example, exemplar, mirror, model, paradigm, pattern, standard. See good/bad.
A fervent hope, wish, or goal: aspiration, dream. See hope/despair.

adjective

Conforming to an ultimate form of perfection or excellence: exemplary, model, perfect, supreme. See good/bad.
Existing only in concept and not in reality: abstract, hypothetic, hypothetical, theoretic, theoretical, transcendent, transcendental. See real/imaginary.

Antonyms: ideal

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adj

Definition: conceptual; impractical
Antonyms: actual, attainable, common, material, practical, pragmatic, real

adj

Definition: model, perfect
Antonyms: flawed, imperfect, incorrect, problematic, wrong

n

Definition: model
Antonyms: error, flaw, imperfection, problem, wrong

Architecture and Landscaping: ideal

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Concept of something perfect, sometimes equated with works that attempt to reproduce the best of natural forms but improve upon them, ironing out imperfections. In Europe since the Renaissance the ideal has been the art of Classical Antiquity.

Sports Science and Medicine: ideal

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Pertaining to a highly desirable and possible state of affairs.

World of the Mind: ideal

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The concept of an ideal seems to come from extrapolating from that which is seen as inadequate to some relatively perfect state. There are thus 'ideals of manhood' and general 'ideals worth striving for'. In metaphysics, ideals can be supposed to exist, in some kind of heaven. This holds for Plato's ideal forms of objects, including mathematical fictions such as the ideal triangle.

For Plato, mathematical and indeed all significant knowledge is of ideal unchanging forms, of which we see only transitory and imperfect replicas paraded before the senses. (See Platonic forms.) It is likely that this Platonic view has deeply affected ethics, and set up moral standards directed towards static, unchanging ideals which, in practice, cannot be realized, and, if they were, would be death.

(Published 1987)

— Richard L. Gregory

Word Tutor: ideal

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IN BRIEF: Exactly as one would wish. Or the best or most perfect goal or result.

The ideal attitude is to be physically loose and mentally tight. — Arthur Ashe (1943-1993), American tennis champion, first black international tennis champion, from The New York Times, 8 February 1993.

Wikipedia: Ideal (order theory)

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In mathematical order theory, an ideal is a special subset of a partially ordered set (poset). Although this term historically was derived from the notion of a ring ideal of abstract algebra, it has subsequently been generalized to a different notion. Ideals are of great importance for many constructions in order and lattice theory.

1 Basic definitions
2 Prime ideals
3 Maximal ideals
4 Applications
5 History
6 Literature
7 See also

Basic definitions

A non-empty subset I of a partially ordered set (P,≤) is an ideal, if the following conditions hold:

For every x in I, y ≤ x implies that y is in I. (I is a lower set)
For every x, y in I, there is some element z in I, such that x ≤ z and y ≤ z. (I is a directed set)

While this is the most general way to define an ideal for arbitrary posets, it was originally defined for lattices only. In this case, the following equivalent definition can be given: a subset I of a lattice (P,≤) is an ideal if and only if it is a lower set that is closed under finite joins (suprema), i.e., it is nonempty and for all x, y in I, the element x $\vee$ y of P is also in I.

The dual notion of an ideal, i.e. the concept obtained by reversing all ≤ and exchanging $\vee$ with $\wedge$ , is a filter. The terms order ideal and order filter are sometimes used for arbitrary lower or upper sets. Wikipedia uses only "ideal/filter (of order theory)" and "lower/upper set" to avoid confusion.

Frink ideals, pseudoideals and Doyle pseudoideals are different generalizations of the notion of a lattice ideal.

An ideal or filter is said to be proper if it is not equal to the whole set P.

The smallest ideal that contains a given element p is a principal ideal and p is said to be a principal element of the ideal in this situation. The principal ideal $\downarrow$ p for a principal p is thus given by $\downarrow$ p = {x in P | x ≤ p}.

Prime ideals

An important special case of an ideal is constituted by those ideals whose set-theoretic complements are filters, i.e. ideals in the inverse order. Such ideals are called prime ideals. Also note that, since we require ideals and filters to be non-empty, every prime filter is necessarily proper. For lattices, prime ideals can be characterized as follows:

A subset I of a lattice (P,≤) is a prime ideal, if and only if

I is an ideal of P, and
for every elements x and y of P, x $\wedge$ y in I implies that x is in I or y is in I.

It is easily checked that this indeed is equivalent to stating that P\I is a filter (which is then also prime, in the dual sense).

For a complete lattice the notion of a completely prime ideal is known. It is defined to be a proper ideal I with the additional property that, whenever the meet (infimum) of some arbitrary set A is in I, some element of A is also in I. So this is just a specific prime ideal that extends the above conditions to infinite meets.

The existence of prime ideals is in general not obvious, and often a satisfactory amount of prime ideals cannot be derived within Zermelo-Fraenkel set theory. This issue is discussed in various prime ideal theorems, which are necessary for many applications that require prime ideals.

Maximal ideals

An ideal I is maximal if it is proper and there is no proper ideal J which is a strictly greater set than I. Likewise, a filter F is maximal if it is proper and there is no proper filter which is strictly greater.

When a poset is a distributive lattice, maximal ideals and filters are necessarily prime, while the converse of this statement is false in general.

Maximal filters are sometimes called ultrafilters, but this terminology is often reserved for Boolean algebras, where a maximal filter (ideal) is a filter (ideal) that contains exactly one of the elements {a, ¬a}, for each element a of the Boolean algebra. In Boolean algebras, the terms prime ideal and maximal ideal coincide, as do the terms prime filter and maximal filter.

There is another interesting notion of maximality of ideals: Consider an ideal I and a filter F such that I is disjoint from F. We are interested in an ideal M which is maximal among all ideals that contain I and are disjoint from F. In the case of distributive lattices such an M is always a prime ideal. A proof of this statement follows.

Proof. Assume the ideal M is maximal with respect to disjointness from the filter F. Suppose for a contradiction that M is not prime, i.e. there exists a pair of elements a and b such that a $\wedge$ b in M but neither a nor b are in M. Consider the case that for all m in M, m $\vee$ a is not in F. One can construct an ideal N by taking the downward closure of the set of all binary joins of this form, i.e. N = { x | x≤ m $\vee$ a for some m in M}. It is readily checked that N is indeed an ideal disjoint from F which is strictly greater than M. But this contradicts the maximality of M and thus the assumption that M is not prime.

For the other case, assume that there is some m in M with m $\vee$ a in F. Now if any element n in M is such that n $\vee$ b is in F, one finds that (m $\vee$ n) $\vee$ b and (m $\vee$ n) $\vee$ a are both in F. But then their meet is in F and, by distributivity, (m $\vee$ n) $\vee$ (a $\wedge$ b) is in F too. On the other hand, this finite join of elements of M is clearly in M, such that the assumed existence of n contradicts the disjointness of the two sets. Hence all elements n of M have a join with b that is not in F. Consequently one can apply the above construction with b in place of a to obtain an ideal that is strictly greater than M while being disjoint from F. This finishes the proof.

However, in general it is not clear whether there exists any ideal M that is maximal in this sense. Yet, if we assume the Axiom of Choice in our set theory, then the existence of M for every disjoint filter-ideal-pair can be shown. In the special case that the considered order is a Boolean algebra, this theorem is called the Boolean prime ideal theorem. It is strictly weaker than the Axiom of Choice and it turns out that nothing more is needed for many order theoretic applications of ideals.

Applications

The construction of ideals and filters is an important tool in many applications of order theory.

In Stone's representation theorem for Boolean algebras, the maximal ideals (or, equivalently via the negation map, ultrafilters) are used to obtain the set of points of a topological space, whose clopen sets are isomorphic to the original Boolean algebra.

Order theory knows many completion procedures, to turn posets into posets with additional completeness properties. For example, the ideal completion of a given partial order P is the set of all ideals of P ordered by subset inclusion. This construction yields the free dcpo generated by P. Furthermore the ideal completion serves to reconstruct any algebraic dcpo from its set of compact elements.

History

Ideals were introduced first by Marshall H. Stone, who derived their name from the ring ideals of abstract algebra. He adopted this terminology because, using the isomorphism of the categories of Boolean algebras and of Boolean rings, both notions do indeed coincide.

Literature

Ideals and filters are among the most basic concepts of order theory. See the introductory books given for order theory and lattice theory, and the literature on the Boolean prime ideal theorem.

A monograph available free online:

Burris, Stanley N.; and Sankappanavar, Hanamantagouda P.; 1981. A Course in Universal Algebra. Springer-Verlag. ISBN 3-540-90578-2.

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