Upon successful completion of the course, students will be able to: analyze mathematical tools and techniques essential for studying physics to enhance problem-solving abilities within physical contexts; deduce the concepts of energy, work, and power and their interrelationships to evaluate energy transformations and conservation in various systems; interpret experimental data to hypothesize underlying physical laws and refine experimental techniques through repeated cycles of prediction, measurement, and adjustment; measure changes in physical quantities using appropriate units and conversion methods to ensure accuracy and consistency in scientific communication; assess the scientific method by developing hypotheses, designing experiments, and analyzing data to cultivate a scientific approach and critical thinking skills; categorize and differentiate various vector analysis concepts to apply them effectively in solving physics problems involving vector quantities; apply Newton’s laws of motion to analyze and solve problems related to forces and motion in real-world scenarios; and examine the dynamics of motion through the calculation of displacement, velocity, acceleration, and projectile motion, enabling precise prediction and evaluation of moving objects.