The content presents Leonhard Euler's critical examination of a proposal by Jacob Bernoulli for propelling a ship using internal motion. Euler systematically analyzes the forces involved in Bernoulli's proposed mechanism, which utilizes a pendulum striking an elastic platform within the ship.
Euler first establishes the fundamental principle that internal forces within a closed system, such as a ship, cannot generate net motion, as the action and reaction forces cancel out. He then proceeds to calculate the specific forces involved in the pendulum's descent, impact, and ascent, demonstrating that the backward forces during the pendulum's swing exactly cancel out the forward force from the impact.
Euler also considers the effect of water resistance and friction, showing that even in the presence of these external factors, the internal forces still cannot produce net forward motion for the ship. He highlights a remarkable mechanical paradox where friction can actually enable motion that would not occur without it.
Through rigorous analysis, Euler concludes that any mechanism relying solely on internal forces, whether pressures or impacts, cannot propel a ship forward. External interactions are required to generate net motion, as the center of mass of the closed system remains stationary under the influence of internal forces alone.
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