2026/2027 | 125 Practice Questions with
Answers | OSHA, Concrete, Codes & More
Description:
Master the Building Construction Final Exam 2026/2027 with 125 expert-crafted questions
covering OSHA regulations, concrete technology, building codes, earthwork, and
structural systems. Each question includes detailed answers and explanations to boost your
exam readiness. Perfect for contractors, engineers, and construction students.
Download your complete study guide today and pass with confidence!
, Building Construction Exam 2026/2027: 125 Questions &
Answers
SECTION A: EARTHWORK AND SITE PREPARATION
1. Well-blasted rock typically exhibits a swell percentage of:
A. 10%
B. 20%
C. 30%
D. 40%
E. 50%
Answer: B. 20%
Explanation: Well-blasted rock typically exhibits a swell percentage of approximately 20%,
indicating the volume increase that occurs when rock is fractured and loosened from its in-
situ state. This swell factor is essential for estimating material handling requirements and
hauling capacity in earthwork operations.
2. The preliminary site investigation is usually conducted:
A. As a single comprehensive phase
B. In two distinct stages
C. During the construction phase
D. After the building permit is issued
E. Only when soil issues are suspected
Answer: B. In two distinct stages
Explanation: Preliminary site investigations are typically conducted in two stages: an initial
desk study and site reconnaissance, followed by a more detailed subsurface investigation.
This phased approach allows for cost-effective assessment while ensuring adequate
information for foundation design decisions.
3. Excavations located five feet or less from the lot line during the renovation of an
existing building shall be enclosed with a barrier not less than _____ feet high:
A. 4'
B. 5'
C. 6'
,D. 7'
E. 8'
Answer: C. 6'
Explanation: Excavations situated within five feet of a lot line during building renovation
require barrier protection at least 6 feet in height. This safety requirement prevents
unauthorized access and protects the public from excavation-related hazards on confined
urban sites.
4. The maximum angle of repose for an excavation less than 20 feet deep in sand shall be
_____ degrees:
A. 26
B. 30
C. 34
D. 38
E. 45
Answer: C. 34
Explanation: For excavations less than 20 feet in depth in sandy soils, the maximum
allowable angle of repose is 34 degrees. This angle represents the steepest slope at which the
granular material remains stable without sliding, ensuring worker safety in excavation
operations.
5. The method of estimating most commonly used to compute cuts and fills in grading
projects is the:
A. Average end area method
B. Grid method
C. Cross-section method
D. Contour area method
E. Triangular prism method
Answer: A. Average end area method
Explanation: The average end area method is most commonly employed for calculating
earthwork volumes in grading projects. This approach uses cross-sectional areas at regular
, intervals to compute cut and fill quantities, providing practical accuracy for estimating
earthmoving requirements.
6. The swell percentage of well-blasted rock is primarily used to determine:
A. The compaction requirements for fill placement
B. The volume increase when rock is excavated and loosened
C. The moisture content adjustment needed for compaction
D. The bearing capacity of the foundation material
E. The required depth of excavation
Answer: B. The volume increase when rock is excavated and loosened
Explanation: The swell percentage of well-blasted rock represents the volume increase that
occurs when rock is fractured and loosened from its in-situ state. This factor is essential for
estimating material handling requirements, hauling capacity, and storage needs in earthwork
operations.
7. In earthwork calculations, which equation correctly represents the swell percentage?
A. Swell (%) = ((Soil density in bank / Soil density in loose) - 1) × 100
B. Swell (%) = ((Soil density in loose / Soil density in bank) - 1) × 100
C. Swell (%) = ((Soil density in bank × Soil density in loose) - 1) × 100
D. Swell (%) = ((Soil density in bank / Soil density in compacted) - 1) × 100
E. Swell (%) = ((Soil density in compacted / Soil density in bank) - 1) × 100
Answer: A. Swell (%) = ((Soil density in bank / Soil density in loose) - 1) × 100
Explanation: The swell percentage is calculated as the difference between the bank density
and loose density, divided by the loose density. This formula quantifies the volume expansion
when soil or rock is excavated.
8. The phenomenon where soil volume decreases when compacted from its loose state to
a denser condition is known as:
A. Swell
B. Shrinkage
C. Settlement
D. Consolidation
E. Elastic rebound