Ask Question
8 April, 08:57

A boat has a propulsion system that consists of a pump that sucks water at the bow and presses it on the stern. All tubes are 5 cm in diameter and the outlet flow is 50 L/s.

Calculate the propulsion force at the moment of departure, that is, with the boat at rest. The pressure at the inlets and outlets is assumed to be practically atmospheric (water density = 1000 Kg / m3).

+1
Answers (1)
  1. 8 April, 10:45
    0
    The propulsion force at the moment of departure, is 49 N

    Explanation:

    Given;

    diameter of tubes = 5 cm = 0.05 m

    volumetric flow rate, V = 50 L/s = 0.005 m³/s

    density of water, ρ = 1000 Kg / m³

    hydraulic / propulsion force, F = ρVg

    where;

    ρ is the density of the fluid (water)

    V is the volumetric flow rate of water

    g is acceleration due to gravity

    propulsion force, F = ρVg

    propulsion force, F = 1000 x 0.005 x 9.8

    propulsion force, F = 49 N

    Therefore, the propulsion force at the moment of departure, is 49 N
Know the Answer?
Not Sure About the Answer?
Get an answer to your question ✅ “A boat has a propulsion system that consists of a pump that sucks water at the bow and presses it on the stern. All tubes are 5 cm in ...” in 📙 Physics if there is no answer or all answers are wrong, use a search bar and try to find the answer among similar questions.
Search for Other Answers