F.E/E.I.T Civil Fundamental of Engineering Practice Problems, Solutions Full

F.E/E.I.T Civil Fundamental of Engineering Practice Problems, Solutions Full

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Welcome to our post on Fundamental of Engineering/EIT Civil practice problems and solutions! Whether you are studying for the FE exam or the EIT exam, these practice problems will help you hone your skills and solidify your understanding of key civil engineering concepts.

Below, you will find a series of practice problems covering a range of topics including structural analysis, geotechnical engineering, transportation engineering, and more. Each problem is followed by a detailed solution to help you check your work and learn from any mistakes.

So grab your calculator, pencil, and paper, and let’s dive into these practice problems to help you ace your upcoming exam!

1. Structural Analysis:
   Problem: Determine the reactions at the supports for the simply supported beam shown below. (Hint: Use the method of sections)

   Solution:

   • First, calculate the total load on the beam:
     Total load = 10 kN + 20 kN = 30 kN
   • Next, draw a free body diagram of the beam and apply the equilibrium equations to solve for the reactions:
     ΣFy = 0: Ay + By – 30 kN = 0
     ΣM = 0: Ay(6m) – 30 kN(3m) = 0
     From these equations, we can solve for Ay and By.

2. Geotechnical Engineering:
   Problem: A soil sample has a specific gravity of 2.65 and a water content of 10%. Calculate the dry unit weight of the soil sample.

   Solution:
   Dry unit weight = (1 + (water content/100)) specific gravity unit weight of water
   Dry unit weight = (1 + 0.1) 2.65 9.81 kN/m^3 = 29.07 kN/m^3

3. Transportation Engineering:
   Problem: Calculate the stopping sight distance for a vehicle traveling at 60 mph on a horizontal road with a reaction time of 1.5 seconds and a deceleration rate of 10 ft/s^2.

   Solution:
   Stopping sight distance = (initial velocity reaction time) + (0.5 (initial velocity)^2 / deceleration rate)
   Stopping sight distance = (88 ft/s 1.5 s) + (0.5 (88 ft/s)^2 / 10 ft/s^2) = 132 ft + 387.2 ft = 519.2 ft

   We hope these practice problems and solutions have helped you strengthen your understanding of civil engineering concepts. Keep practicing and good luck on your exam!

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