: The fuel tank on a car has a depth d= 0.472 m. The fuel level in the tank is detected by a sensor at the end of an arm with length L = 0.683 m. The arm is free to rotate about a pivot at an upper corner of the fuel tank. The angle between the arm and the vertical is 0, as indicated in the drawing.

• Part (a) Derive an expression for the sensor height, h, above the horizontal tank bottom as a function of L, d and O.

h=

B) Use logic to deduce the value, in degrees, of the angle A when the fuel tank is full. No computation is required.

θfull=

• Part (c) Calculate the angle, in degrees, associated with a half-full fuel tank.
• Part (d) Note that the arm is longer than the tank is deep, I > d. What angle, in degrees, is associated with an empty fuel tank?

Transcribed Image Text:

--- ### Fuel Tank Measurement Mechanism #### Descriptive Text: The fuel tank on a car has a depth \( d = 0.472 \) meters. The fuel level in the tank is detected by a sensor at the end of an arm with length \( L = 0.683 \) meters. The arm is free to rotate about a pivot at an upper corner of the fuel tank. The angle between the arm and the vertical is \( \theta \), as indicated in the drawing. #### Diagram Explanation: The accompanying diagram shows a rectangular fuel tank with a liquid fuel level marked. On the top right corner of the fuel tank, there is a pivot point where an arm of length \( L = 0.683 \) meters is attached. This arm rotates freely about the pivot. At the end of the arm, there is a sensor that detects the fuel level. The arm forms an angle \( \theta \) with the vertical line drawn from the top of the tank to the fuel level, illustrating the function of the sensor arm mechanism in measuring the depth of fuel \( d = 0.472 \) meters in the tank. ---