Paper 3 Hkia -
Examiners' reports, such as the 2017 PA Report , often provide insights into common pitfalls and the passing standard, which is typically set around 65%. Study Guide for HKIA/ARB Professional Assessment - Paper 3
Details site investigation, preparation, and various foundation structures.
Navigating the path to becoming a registered architect in Hong Kong involves a rigorous series of examinations known as the , conducted by the Hong Kong Institute of Architects (HKIA) and the Architects Registration Board (ARB). Among these, Paper 3: Building Structures is a critical technical component that evaluates a candidate’s understanding of structural principles and their practical application in architectural design. Overview of Paper 3: Building Structures paper 3 hkia
The HKIA Paper 3 Study Guide outlines five primary sections that candidates must master:
Paper 3 is designed to ensure that aspiring architects possess the necessary structural knowledge to collaborate effectively with engineers and ensure the safety and feasibility of their designs. It is currently an consisting of 60 multiple-choice questions with a time limit of 1.5 hours . Examiners' reports, such as the 2017 PA Report
Covers various types of structures and their behavioral characteristics.
Candidates should be aware of a significant structural change to the assessment process. As of , Paper 3 will be abolished in its current form. It will be merged with Paper 4 (Building Services) and Paper 5 (Materials & Technology) into a single, integrated Technical Paper . Current Paper 3 New Integrated Technical Paper (from 2027) Format Individual Subject Paper One Combined Paper Questions 90 Questions (75 MCQs + 15 Scenario-based) Duration Scope Structures only Structures, Services, and Materials Among these, Paper 3: Building Structures is a
The HKIA provides a dedicated Paper 3 Study Guide that is updated regularly to reflect the expected scope of the exam.
Explores complex systems like trusses, arches, tension structures (suspension and cable-stayed), and membrane structures. Major Upcoming Changes (2027)