The cross-section of the fuel tank of an experimental vehicle is shown in the figure below. The rectangular tank is vented to the atmosphere and the specific gravity of the fuel is SG = 0.65. A pressure transducer is located on its side as illustrated. During testing of the vehicle, the tank is subjected to a constant linear acceleration, FIND (a) Determine an expression that relates a, and the pressure (in lbs/ft²) at the transducer. (b) What maximum acceleration (in ft/s²) can occur before the fuel level drops below the transducer? Vent Fuel Air Prepared by: 0.75 ft 0.75 ft L 0.5 ft Transducer

The cross-section of the fuel tank of an experimental vehicle is shown in the figure below. The rectangular tank is vented to the atmosphere and the specific gravity of the fuel is SG = 0.65. A pressure transducer is located on its side as illustrated. During testing of the vehicle, the tank is subjected to a constant linear acceleration, FIND (a) Determine an expression that relates a, and the pressure (in Ibs/ft?) at the transducer. (b) What maximum acceleration(in ft/s?) can occur before the fuel level drops below the transducer?

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The cross-section of the fuel tank of an experimental vehicle is shown in the figure below. The rectangular tank is vented to the atmosphere and the specific gravity of the fuel is SG = 0.65. A pressure transducer is located on its side as illustrated. During testing of the vehicle, the tank is subjected to a constant linear acceleration, FIND (a) Determine an expression that relates a, and the pressure (in lbs/ft²) at the transducer. (b) What maximum acceleration (in ft/s²) can occur before the fuel level drops below the transducer? Prepared by: Engr losolito Ranic (2) 0.75 ft Vent Fuel Air 0.75 ft (1) 2₁ 0.5 ft + Transducer