A tool to assist architects in transitioning from the current licensing exam to the new version debuting in late 2016 has been unveiled by the National Council of Architectural Registration Boards (NCARB). NCARB released a Transition Calculator tool for the Architect Registration Examination (ARE) that will help licensure candidates transition from ARE 4.0 to ARE 5.0. A version of the nationally used exam, ARE 5.0, will launch in late 2016 and run concurrently with ARE 4.0 until June 2018 to allow candidates to select the transition plan that works best.
The ARE is a multi-division test developed by NCARB and taken by all candidates seeking architectural registration in the United States. The release of ARE 5.0 will be the latest update to the exam.
When determining how to transition candidates to ARE 5.0, NCARB developed options that will help candidates when making a plan:
Dual Delivery. ARE 4.0 will continue to be available after ARE 5.0 launches in late 2016. Candidates will be able to transition anytime during the period of dual delivery up until ARE 4.0 is retired on June 30, 2018.
Self-Transition. ARE candidates who began the testing process in ARE 4.0 will have the option to “self-transition” to ARE 5.0 as soon as it launches—or at any time before ARE 4.0 is retired. This will allow candidates to continue testing in the version that is most convenient for them. Once a candidate begins to test in ARE 5.0, however, they may not transition back to ARE 4.0.
Tools and Resources. NCARB is introducing more interactive tools and resources as the launch of ARE 5.0 approaches. NCARB representatives are available to help candidates determine the best strategy for the transition. In addition, the ARE 5.0 Transition Calculator has been created to assist licensure candidates immediately.
ARE 5.0 Transition Calculator
NCARB has designed the ARE 5.0 Transition Calculator to help candidates develop a personalized testing strategy. Candidates can log in through their My NCARB account to import their current testing status to the calculator.
The calculator will help candidates develop a personalized testing plan. It also shows how the test divisions used in ARE 4.0 will evolve in the ARE 5.0 test structure, to help any candidate plan for successfully completing their test taking. For candidates who have already begun testing, the calculator will help track exam expiration dates for individual divisions so that they can complete the ARE within five years.
The calculator is used in conjunction with NCARB’s Credit Model to determine which plan works best for each individual.
Practicing architects, who volunteer to serve on NCARB’s Examination Committee, partner with a test development consultant to review the content covered in each of the divisions of ARE 4.0 and ARE 5.0 to find a reasonable level of alignment. As a result, candidates have the opportunity to receive credit for ARE 5.0 divisions based on ARE 4.0 divisions passed.
For more information on the ARE 5.0 Calculator visit here. For the ARE 5.0, visit here<.
Related Stories
Industry Research | Nov 8, 2022
U.S. metros take the lead in decarbonizing their built environments
A new JLL report evaluates the goals and actions of 18 cities.
Hotel Facilities | Nov 8, 2022
6 hotel design trends for 2022-2023
Personalization of the hotel guest experience shapes new construction and renovation, say architects and construction experts in this sector.
Green | Nov 8, 2022
USGBC and IWBI will develop dual certification pathways for LEED and WELL
The U.S. Green Building Council (USGBC) and the International WELL Building Institute (IWBI) will expand their strategic partnership to develop dual certification pathways for LEED and WELL.
Reconstruction & Renovation | Nov 8, 2022
Renovation work outpaces new construction for first time in two decades
Renovations of older buildings in U.S. cities recently hit a record high as reflected in architecture firm billings, according to the American Institute of Architects (AIA).
Sponsored | Steel Buildings | Nov 7, 2022
Steel structures offer faster path to climate benefits
Faster delivery of buildings isn’t always associated with sustainability benefits or long-term value, but things are changing. An instructive case is in the development of steel structures that not only allow speedier erection times, but also can reduce embodied carbon and create durable, highly resilient building approaches.
Building Team | Nov 7, 2022
U.S. commercial buildings decreased energy use intensity from 2012 to 2018
The recently released 2018 Commercial Buildings Energy Consumption Survey (CBECS) by the U.S. Energy Information Administration found that the total floorspace in commercial buildings has increased but energy consumption has not, compared with the last survey analyzing the landscape in 2012.
Sports and Recreational Facilities | Nov 7, 2022
Gilbane, Turner, Populous tapped to design and build new Buffalo Bills stadium
The joint venture of Gilbane Building Company and Turner Construction Company, in association with 34 Group, has been selected to provide construction management of the planned new NFL stadium for the Buffalo Bills in Orchard Park, N.Y. The project team also includes the project management firm, Legends Project Development, and Populous as the designer.
| Nov 7, 2022
Mixed-use tower in China features world’s highest outdoor pool
Guangxi China Resources Tower, a new 403-meter-tall (1,322 feet) skyscraper in Nanning, China features the world’s highest outdoor pool—at 323 meters (1,060 feet) above grade.
Building Team | Nov 3, 2022
More than half of U.S. contractors say finding skilled workers is big barrier to their growth
More than half of U.S. contractors (55%) say finding enough skilled workers is one of the biggest barriers to growing their business, according to a DEWALT Powering the Future Survey.
Building Materials | Nov 2, 2022
Design for Freedom: Ending slavery and child labor in the global building materials sector
Sharon Prince, Founder and CEO of Grace Farms and Design for Freedom, discusses DFF's report on slavery and enforced child labor in building products and materials.
