Chapter 2- Concepts of Construction

Question 1

NFPA 5000: Building Construction and Safety Code, _____ are forces or other actions that result from the weight of all building materials, occupants and their possessions, environmental effects, differential movement, and restrained dimensional changes.

Answer 1

Loads

Question 2

The internal forces that resist the load are called

Answer 2

Stress and Strain.

Question 3

__, a term meaning 1,000 pounds, is used in engineering calculations where the number would be so large as to be unwieldy.

Answer 3

KIP

Question 4

Generally, four types of forces can be applied to a structural member: __, __, __, and __.

Answer 4

compression, tension, torsion, shear.

Question 5

Today, buildings can be considered as being bought

Answer 5

by the pound

Question 6

__ loads can be accurately calculated.

Answer 6

Dead

Question 7

__ loads are indeterminate. The __ load must be estimated based on the projected use of the building and such variables as snow, wind, or rain.

Answer 7

Live

Question 8

Water weighs __ pounds per gallon, so a 1,000 gallon per minute master stream will potentially add over 4 tons of weight to the building in just 1 minute.

Answer 8

8.34

Question 9

__ loads are loads that are applied slowly and remain constant.

Answer 9

Static

Question 10

Two closely related structural frames, the __ __ and the __ __, are also used in buildings to resist lateral wind and earthquake loads (and, more recently, the lateral blast loads from a terrorist’s bomb). ____ ____ uses diagonal memebers for bracing purposes, while ____ _____ uses a special moment connects between columns and beams that resist rotation.

Answer 10

Braced frame, Moment frame

Question 11

Very tall high-rise buildings are built to take the wind load on the __ __ rather than on the __ __.

Answer 11

Exterior walls, interior core.

Question 12

A steel beam resting on a masonry wall is an example of a __ __ load.

Answer 12

Concentrated dead.

Question 13

A safe is a __ __ load.

Answer 13

Concentrated live.

Question 14

Wood, paper and similar materials are estimated at __ btu/lb.

Answer 14

8000

Question 15

For plastics and combustible liquids, __ btu/lb is a common estimate, though the caloric value for some of these fuels is much higher.

Answer 15

16000

Question 16

Under this system, plastics were converted into equivalent pounds on the basis that __ pound of plastics equals __ pounds of wood.

Answer 16

1, 2.

Question 17

A fire load of 80,000 Btu/sq ft or 10 lbs of ordinary combustibles/sq ft is approximately the equivalent of a __ hour exposure to the standard fire endurance test ASTM E-119, Standard Test Methods for Fire Tests of Building Construction and Materials.

Answer 17

1

Question 18

Steel, which has a safety factor of __; masonry constructed in place might have a safety factor of __.

Answer 18

2, 10.

Question 19

Concrete is a relatively inexpensive material that is strong in __ but weak in __.

Answer 19

Compression, tension.

Question 20

The load carrying capacity of a beam increases by the __ of its depth.

Answer 20

Square

Question 21

__ can support axial loads but are not designed to handle rotational moments

Answer 21

Trusses

Question 22

Wooden __ chord trusses are being used for floors and roofs in single family homes, row houses, apartment houses, and smaller office buildings.

Answer 22

Parallel

Question 23

The top chord of a truss is in __.

Answer 23

Compression

Question 24

The bottom chord is in __.

Answer 24

Tension

Question 25

When a truss is __ out, the situation reverses.

Answer 25

Cantilevered

Question 26

It is more difficult to attach beams to __ columns than to rectangular columns, so less efficient rectangular columns are often used.

Answer 26

Round.

Question 27

In cast iron construction in buildings, interior columns are usually __, while wall columns (within exterior walls) are __.

Answer 27

Circular, Rectangular.

Question 28

There are three types of columns, which can be differentiated by the manner in which they generally fail. __ are short, squat columns, which fail by crushing.

Answer 28

Piers

Question 29

Long, __ columns fail by buckling. In buckling, the column normally assumes an S shape.

Answer 29

Slender

Question 30

__ columns can fail either way.

Answer 30

Intermediate

Question 31

Very long, thin columns are known as __ __ columns.

Answer 31

Euler’s Law

Question 32

The terms panel walls and curtain walls are often used interchangeably to describe non load bearing enclosing walls on framed buildings. Technically, __ walls are one story in height and __ walls are more than one story.

Answer 32

Panel, Curtain.

Question 33

The __ combines the function of the beam and the column.

Answer 33

Arch

Question 34

The truss is a beam, and its thrust is straight down the wall or column. In contrast, the thrust of an arch is __.

Answer 34

Outward

Question 35

When the arch is tied, the thrust is __, but it lacks the triangles that would make it a truss.

Answer 35

Downward

Question 36

The __ is a shell. It can be considered a three dimensional arch.

Answer 36

Dome

Question 37

__ domes are formed from a large number of triangles of equal size.

Answer 37

Geodesic

Question 38

There are two general types of connections:

A building is said to be __ when the elements are connected by simple connectors such as bolts, rivets, or welded joints. These are usually not strong enough to reroute forces if a member is removed, so do not assume loads will be redistributed around the missing member.

Answer 38

Pinned

Question 39

In a __ __ building, the connections are strong enough to reroute forces if a member is removed.

Answer 39

Rigid Framed

Question 40

A __ concrete building is rigid framed.

Answer 40

Monolithic

Question 41

__ concrete buildings may be pinned or may be made monolithic by the use of wet joints in which cast in place concrete unites rods that project from precast sections.

Answer 41

Precast

Question 42

Steel heated to 1,000 degrees F elongates __ inches per 100 feet.

Answer 42

9.5

Question 43

Unprotected steel rods and cables ( which fail at __ degrees F) are often used to tie failing buildings together or to provide some additional resistance to earthquake movement.

Answer 43

800

Question 44

Vertical or horizontal orientation.

Answer 44

Attitude

Question 45

A load that passes through the centroid of a section under construction and is perpendicular to the plane of the section.

Answer 45

Axial Load

Question 46

Lightweight steel truss joist.

Answer 46

Bar Joist

Question 47

A structural member that transmits forces perpendicular to such forces to the reaction points.

Answer 47

Beam

Question 48

A line of columns in any direction.

Answer 48

Bent

Question 49

A structural system that uses diagonal members to provide bracing against lateral wind and earthquake loads.

Answer 49

Braced Frame

Question 50

Diagonal member that supports what would otherwise be a cantilever.

Answer 50

Bracket

Question 51

Consists of an exterior wythe of brick directly mortared or parked to an inner wythe of concrete masonry unit.

Answer 51

Brick and Block Composite Wall

Question 52

The quantity of heat required to raise the temperature of 1 pound of water 1 degree F at the pressure of 1 atmosphere and temperature of 60 degrees F.

Answer 52

British Thermal Unit, BTU.

Question 53

Made of steel plates and angles riveted together, as distinguished from one rolled from one piece of steel.

Answer 53

Built up Girder

Question 54

Mass of masonry built against a wall to strengthen it. Necessary when a vault or an arch places a heavy load or thrust on one part of a wall.

Answer 54

Buttress

Question 55

Measured in Btu; the amount of heat required to raise 1 pound of water 1 degree F.

Answer 55

Caloric value

Question 56

Upward rise.

Answer 56

Camber

Question 57

A beam supported at one end only, rigidly held in position at the end.

Answer 57

Cantilever beam

Question 58

A wall built of two wythes separated by a space for rain drainage or insulation.

Answer 58

Cavity or hollow wall

Question 59

The center point at which a body would be stable, or balance, under the influence of gravity.

Answer 59

Centroid

Question 60

The outside members (top and bottom) of a truss, as opposed to the inner webbed members

Answer 60

Chord

Question 61

A structural member that transmits a compressive force along a straight path in the direction of the member.

Answer 61

Column

Question 62

Built up of different parts, pieces, or materials.

Answer 62

Composite

Question 63

A wall composed of two or more masonry materials that react together under load.

Answer 63

Composite wall

Question 64

Direct pushing force, in line with the axis member; the opposite of tension.

Answer 64

Compression

Question 65

A load acting on a very small area of the structure’s surface; the exact opposite of a distributed load.

Answer 65

Concentrated load

Question 66

A beam supported at three or more points.

Answer 66

Continuous beam

Question 67

Any wall at right angles to any other wall; the walls should brace one another.

Answer 67

Cross wall

Question 68

No external braces involved; bracing is done within the core of the structure.

Answer 68

Core construction

Question 69

The weight of the building itself and any equipment permanently attached to it or built in.

Answer 69

Dead load

Question 70

The deformation or displacement of a structural member as a result of loads acting on it.

Answer 70

Deflection

Question 71

Wall bounding a tenant space.

Answer 71

Demising wall

Question 72

A floor designed to stiffen a building against wind and other lateral loads such as earthquakes.

Answer 72

Diaphragm floor

Question 73

A force that is perpendicular to the plane section but does not pass through the center of the section.

Answer 73

Eccentric load

Question 74

The end of a joist that is cut at an angle to permit the joist to fall out of a wall without damaging the load bearing wall.

Answer 74

Fire cut

Question 75

The potential fuel available for a fire in a building.

Answer 75

Fire load

Question 76

The ability of a material to avoid ignition, combustion, and the thermal effects of fire.

Answer 76

Fire resistance

Question 77

Wall with a fire resistive rating and structural stability that separates buildings or subdivides a building to prevent the spread of fire.

Answer 77

Fire wall

Question 78

Beam supported at two points and rigidly held in position at both points.

Answer 78

Fixed beam

Question 79

Made by sandwiching a piece of steel between two wooden beams.

Answer 79

Flitch plate girder

Question 80

The lower division of a building that serves to transmit and anchor the loads from the superstructure directly to its earth or rock, usually below ground level.

Answer 80

Foundation

Question 81

Another name for a gusset plate in a lightweight wood truss.

Answer 81

Gang nail

Question 82

A beam that supports other beams.

Answer 82

Girder

Question 83

A connection that depends on the weight of the building to hold it in place.

Answer 83

Gravity connection

Question 84

All of the structural elements of a building and the connections that support and transfer the loads.

Answer 84

Gravity resistance system

Question 85

A series of closely spaced beams designed to carry a particularly heavy load.

Answer 85

Grillage

Question 86

A masonry unit that overlaps two or more adjoining wythes of masonry to tie them together.

Answer 86

Header

Question 87

The rate at which the potential heat in a fuel is released.

Answer 87

Heat release rate (HRR)

Question 88

When describing wall construction, a wall that acts as one unit.

Answer 88

Homogeneous

Question 89

The effect of a moving load upon a stationary structure.

Answer 89

Impact load

Question 90

A truss incorporating a single compression member; it is inverted because the compression member extends downward.

Answer 90

Inverted king post truss

Question 91

A beam.

Answer 91

Joist

Question 92

A unit for measuring the energy release rate of fire.

Answer 92

Kilowatt (KW)

Question 93

A wall typically found in the top floor of a wood frame home with a peaked roof. This short wall squares off the triangular area at the edge of the room where the sloping roof meets the floor.

Answer 93

Knee wall

Question 94

A force that acts on a structure from a horizontal direction, such as wind or seismic forces.

Answer 94

Lateral impact load

Question 95

A wood board typically attached to a wall’s studs that is used to support wood joists.

Answer 95

Ledger board

Question 96

The horizontal beam that forms the upper structural member of an opening for a window or door and supports part of the structure above it.

Answer 96

Lintel

Question 97

The weight of the buildings contents.

Answer 97

Live load

Question 98

A very large structure.

Answer 98

Megastructure

Question 99

A structural system that utilizes special moment connections between columns and beams to resist rotation due to lateral loads such as earthquakes and wind.

Answer 99

Moment frame

Question 100

A construction technique in which all successive poured concrete castings are joined together so that the structure seems to be like one piece of stone.

Answer 100

Monolithic concrete

Question 101

When any change is to be made in the foundation of an existing wall, the wall must be supported. Often holes are cut through the wall, and so called __ __ are inserted and supported on both sides.

Answer 101

Needle beams

Question 102

The line along which the length of the beam does not change.

Answer 102

Neutral axis

Question 103

The connection points joining ties, struts, and chords in a truss.

Answer 103

Panel points

Question 104

Non load bearing enclosing wall on framed buildings.

Answer 104

Panel wall (curtain wall)

Question 105

A non load bearing wall that subdivides spaces within any story of a building or room.

Answer 105

Partition wall

Question 106

A load bearing wall that is common to two structures.

Answer 106

Party wall

Question 107

A masonry column projecting from one or both faces of the wall in which it is located.

Answer 107

Pilaster

Question 108

Design based on connections that redirect overloads to other sections of the building.

Answer 108

Plastic design

Question 109

Heavy riveting of girders to columns from the top to the bottom of the frame.

Answer 109

Portal bracing

Question 110

A truss with two compression member.

Answer 110

Queen post truss

Question 111

Diagonal bracing columns

Answer 111

Rakers

Question 112

The response in structures to the imposed loads, which are generally developed at the supports.

Answer 112

Reaction

Question 113

A load that is applied intermittently.

Answer 113

Repeated load

Question 114

A water soluble mixture used in the past as mortar, when water is applied, the mortar can be washed away from the wall.

Answer 114

Sand lime mortar

Question 115

A type of floor in which floor girders are set on anchor boxes in walls and caps attached to columns.

Answer 115

Self releasing floor

Question 116

Another term for dead load

Answer 116

Self weight

Question 117

A wall that counteracts the effects of lateral loads such as wind and earthquakes.

Answer 117

Shear wall

Question 118

Forces occurring within a building member when opposing forces pull the member in opposite directions.

Answer 118

Shear

Question 119

A beam supported at two points near its end.

Answer 119

Simple beam

Question 120

A three dimensional pyramid like truss

Answer 120

Spaceframe

Question 121

A girder that ties wall columns together in a framed building

Answer 121

Spandrel girder

Question 122

An open web design used for the support of floors and roofs.

Answer 122

Steel joist

Question 123

The capacity of a member or framework to resist imposed loads without excessive deflection.

Answer 123

Stiffness

Question 124

The actual percentage of elongation (deformation) when a material is stressed. It is measured in fractions of an inch of deformation per inch of original length of the material.

Answer 124

Strain

Question 125

Force per unit area that produces a deformation.

Answer 125

Stress

Question 126

A masonry unit laid horizontally with its length in the direction of the face of the wall.

Answer 126

Stretcher

Question 127

A bracing Column.

Answer 127

Strut

Question 128

A simple beam, with one or both ends suspended on a tension member such as a chain, cable, or rod.

Answer 128

Suspended beam

Question 129

A hanging load supported from above.

Answer 129

Suspended load

Question 130

A pulling or stretching force in line with the axis of the body; the opposite of compression.

Answer 130

Tension

Question 131

The tensile connecting members of a truss web.

Answer 131

Tie

Question 132

A rod in tension; used to hold parts of a structure together.

Answer 132

Tie rod

Question 133

The measurable turning force applied to a structural member.

Answer 133

Torque

Question 134

A force tending to twist a structural member.

Answer 134

Torsion

Question 135

A beam that typically carries a load around a large opening or over an area in order to avoid intervening columns.

Answer 135

Transfer beam

Question 136

The manner in which a load is spread from the point of application to the ground.

Answer 136

Transmission

Question 137

Externally braced structure.

Answer 137

Tube construction

Question 138

The highest load that a member or structure can sustain before failure occurs.

Answer 138

Ultimate strength

Question 139

A rectangular truss with very rigid corner bracing.

Answer 139

Vierendeel truss

Question 140

A wedge shaped block whose converging sides radiate from a center, forming an element of an arch or vaulted ceiling.

Answer 140

Voussoir

Question 141

The group of struts, ties, and panel points in a truss.

Answer 141

Web

Question 142

Cast in place concrete that unites the rods projecting from the precast sections.

Answer 142

Wet joint

Question 143

A single continuous vertical wall of masonry units (one masonry unit in thickness).

Answer 143

Wythe