PAS Study Guide 2026
Everything you need to pass the PAS exam in one place: the exam format, every topic to study, real practice questions with explanations, flashcards, and full-length practice tests. Free, no sign-up needed.
📋 PAS Exam Format at a Glance
📚 PAS Topics to Study (21)
✍️ Sample PAS Questions & Answers
1. Which of the following best describes a key competency required for muscle imbalance correction in PAS practice?
PAS professionals working in muscle imbalance correction need analytical skills to assess situations, communication skills to convey findings, and ethical judgment to make sound decisions.
2. Which of the following best describes a key competency required for client education & compliance in PAS practice?
PAS professionals working in client education & compliance need analytical skills to assess situations, communication skills to convey findings, and ethical judgment to make sound decisions.
3. What is the most effective way to measure success in biomechanical analysis & movement within PAS professional practice?
Effective measurement combines multiple data sources — quantitative metrics, qualitative assessments, and stakeholder feedback — all aligned with clearly defined objectives for a comprehensive evaluation.
4. How should PAS professionals handle confidential information related to rehabilitation & recovery protocols?
Confidential information must be handled according to established protocols, regulatory requirements, and professional ethics standards, including proper access control and disclosure procedures.
5. Forward head posture is clinically quantified by measuring the horizontal distance the ear (tragus) is positioned relative to which landmark?
Forward head posture is measured as the horizontal distance the tragus of the ear is located anterior to the acromion process.
6. The Cobb angle is the standard radiographic measurement used to quantify the degree of which spinal deviation?
The Cobb angle is drawn on X-ray between lines parallel to the most tilted vertebrae at the ends of a scoliotic curve, quantifying its lateral magnitude.