Q2. A fluid flows through a fixed (i.e., not rotating) curved pipe of uniform diameter 15 cm with a velocity of the fluid particles on the streamline along the center line of the pipe defined by V = 3t m/sec as shown in the figure below. Determine the normal acceleration and the streamline acceleration when t = 10 sec. -514 0.5 m

Please show all steps in detail and make please show all formulas used. Subject is fluid mechanics

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**Question 2:** A fluid flows through a fixed (i.e., not rotating) curved pipe of uniform diameter 15 cm with a velocity of the fluid particles on the streamline along the center line of the pipe defined by \( V = 3t \) m/sec as shown in the figure below. Determine the normal acceleration and the streamline acceleration when \( t = 10 \) sec. **Figure Explanation:** The diagram illustrates a curved pipe through which fluid flows. The pipe has a uniform diameter of 0.15 meters (15 cm). The curvature of the pipe has a radius of 0.5 meters. The flow velocity changes over time, described by the equation \( V = 3t \), where \( t \) is the time in seconds. The task is to calculate normal and streamline accelerations at \( t = 10 \) seconds.