compound pier

(noun)

the architectural term given to a column or pier which consists of a center mass, to which engaged or semi-detached shafts have been attached, in order to perform (or to suggest the performance of) certain definite structural objects

Related Terms

Examples of compound pier in the following topics:

  • Characteristics of Romanesque Architecture

    • Piers that occur at the intersection of two large arches, such as those under the crossing of the nave and transept, are commonly cruciform in shape, each arch having its own supporting rectangular pier at right angles to the other.
    • A common characteristic of Romanesque buildings, found in both churches and in the arcades that separate large interior spaces of castles, is the alternation of piers and columns.
    • The most simple form this takes is to have a column between each adjoining pier.
    • Often the arrangement was made more complex by the complexity of the piers themselves, so that the alternation was not of piers and columns but rather of piers of entirely different forms from each other.
    • Durham Cathedral has decorated masonry columns alternating with piers of clustered shafts supporting the earliest pointed high ribs.

  • Pearl Harbor

    • Important base installations such as the power station, shipyard, maintenance, and fuel and torpedo storage facilities, as well as the submarine piers and headquarters building (also home of the intelligence section) were not attacked.
    • Further losses compounded the alarming setback.

  • Simple and Compound Sentences

  • Ottonian Architecture in the Early European Middle Ages

    • Most Ottonian churches make generous use of the round arch, have flat ceilings, and insert massive rectangular piers between columns in regular patterns, as is seen in St.
    • The square units are defined by the alternation of columns and piers.
    • The black circles and rectangles between the nave and each aisle mark the alternating columns (circles) and piers (rectangles).
    • Cyriakus are the clerestory windows in place of galleries and one pier placed after each pair of columns.

  • Types of Leaf Forms

    • Leaves may be simple or compound .
    • In a pinnately compound leaf, the middle vein is called the midrib.
    • Leaves may be simple or compound.
    • In compound leaves, the lamina is separated into leaflets.
    • Compound leaves may be palmate or pinnate.

  • Naming Organic Compounds

    • The increasingly large number of organic compounds identified with each passing day, together with the fact that many of these compounds are isomers of other compounds, requires that a systematic nomenclature system be developed.
    • Just as each distinct compound has a unique molecular structure which can be designated by a structural formula, each compound must be given a characteristic and unique name.
    • As organic chemistry grew and developed, many compounds were given trivial names, which are now commonly used and recognized.
    • Second, it should identify and locate any functional groups present in the compound.
    • A suffix or other element(s) designating functional groups that may be present in the compound.

  • Naming Molecular Compounds

    • Molecular compounds are named using a systematic approach of prefixes to indicate the number of each element present in the compound.
    • Molecular compounds are made when two or more elements share electrons in a covalent bond to connect the elements.
    • Typically, non-metals tend to share electrons, make covalent bonds, and thus, form molecular compounds.
    • Remove the ending of the second element, and add "ide" just like in ionic compounds.
    • This video explains how to use a chemical name to write the formula for that compound.

  • Calculating Values for Different Durations of Compounding Periods

    • Since interest generally compounds, it is not as simple as multiplying 1% by 12 (1% compounded each month).
    • This atom will discuss how to handle different compounding periods.
    • The EAR can be found through the formula in where i is the nominal interest rate and n is the number of times the interest compounds per year (for continuous compounding, see ).
    • The equation follows the same logic as the standard formula. r/n is simply the nominal interest per compounding period, and nt represents the total number of compounding periods.
    • The effective annual rate for interest that compounds more than once per year.

  • Halogen Compounds

    • The halogens form many compounds with metals.
    • These include highly ionic compounds such as sodium chloride, monomeric covalent compounds such as uranium hexafluoride, and polymeric covalent compounds such as palladium chloride.
    • Many synthetic organic compounds, such as plastic polymers, as well as a few natural organic compounds, contain halogen atoms; these are known as halogenated compounds, or organic halides.
    • Polyhalogenated compounds are industrially created compounds substituted with multiple halogens.
    • Polyhalogenated compounds include the much publicized PCBs, PBDEs, and PFCs, as well as numerous other compounds.

  • The Temple of Athena Nike

    • The temple is a small Ionic temple that consists of a single naos, where a cult statue stood fronted by four piers.
    • The four piers aligned to the four Ionic prostyle columns of the pronaos .