In MET330 Fluid Mechanics, I anticipate comprehending and articulating the essential characteristics of fluids and precisely delineating various fluid properties, including viscosity and pressure. During Utilizing principles to calculate pressure and the corresponding forces (magnitude, location, and direction) in a stationary fluid, ensuring precision in computations. I anticipate analyzing and assessing buoyancy while evaluating the stability of items both floating and immersed in a fluid, substantiating the conditions of stability. Can apply and combine the principles of energy conservation (Bernoulli’s equation) and mass to diverse fluid flow systems, resolving intricate flow-related issues. Comprehend, elucidate, and implement the principles of similitude and dimensional analysis in experimental and practical fluid mechanics contexts. Examine, elucidate, and resolve issues pertaining to fluid dynamics in sequentially ordered pipes and fittings, emphasizing energy dissipation and system efficacy. Identify, assess, and resolve various industrial challenges related to open-channel flow and forces from flowing fluids, providing recommendations for effective solutions. Comprehend, recognize, and compute fluid flow metrics, including pressure, fluid velocity, and flow rate, utilizing various measurement equipment with accuracy. Comprehend, elucidate, and evaluate the operational principles of fluid machinery, specifically pumps, and assess their practical applications in real-world contexts.