Motor mounting height Motor height on the
transom is an important factor in achieving optimal performance. The motor should be as high as possible without ventilating or loss of water pressure. This minimizes the effect of
hydrodynamic drag while underway, allowing for greater speed. Generally, the antiventilation plate should be about the same height as, or up to two inches higher than, the
keel, with the motor in neutral trim.
Trim Trim is the angle of the motor in relation to the hull, as illustrated below. The ideal trim angle is the one in which the boat rides level, with most of the hull on the surface instead of plowing through the water. If the motor is trimmed out too far, the
bow will ride too high in the water. With too little trim, the bow rides too low. The optimal trim setting will vary depending on many factors including speed, hull design, weight and balance, and conditions on the water (wind and waves). Many large outboards are equipped with
power trim, an electric motor on the mounting bracket, with a switch at the helm that enables the operator to adjust the trim angle on the fly. In this case, the motor should be trimmed fully in to start, and trimmed out (with an eye on the
tachometer) as the boat gains momentum, until it reaches the point just before ventilation begins or further trim adjustment results in an increase in engine speed with no increase in travel speed. Motors not equipped with power trim are manually adjustable using a pin called a topper tilt lock.
Ventilation Ventilation is a phenomenon that occurs when surface air or exhaust gas (in the case of motors equipped with through-hub exhaust) is drawn into the spinning propeller blades. With the propeller pushing mostly air instead of water, the load on the engine is greatly reduced, causing the engine to race and the propeller to spin fast enough to result in
cavitation, at which point little thrust is generated at all. The condition continues until the prop slows enough for the air bubbles to rise to the surface. The primary causes of ventilation are: motor mounted too high, motor trimmed out excessively, damage to the antiventilation plate, damage to propeller, foreign object lodged in the diffuser ring.
Safety If the helmsman goes overboard, the boat may continue under power but uncontrolled, risking serious or fatal injuries to the helmsman and others in the water. A safety measure is a "
kill cord" attached to the boat and helmsman, which cuts the motor if the helmsman falls overboard.
Cooling system The most common type of
cooling used on outboards of all eras use a rubber impeller to pump water from below the waterline up into the engine. This design has remained the standard due mainly to the efficiency and simplicity of its design. One disadvantage to this system is that if the impeller is run dry for a length of time (such as leaving the engine running when pulling the boat out of the water or in some cases tilting the engine out of the water while running), the impeller is likely to be ruined in the process.
Air-cooled outboards Air-cooled outboard engines are currently produced by some manufacturers. These tend to be small engines of less than . Outboard engines made by Briggs & Stratton are air-cooled.
Closed-loop cooling Outboards manufactured by Seven Marine use a closed-loop cooling system with a heat exchanger. This means saltwater is not pumped through the engine block, as is the case with most outboard motors, but instead engine coolant and outside water are pumped through (opposite sides of) the heat exchanger.
Engine Stalls An outboard engine may stall if it does not have the correct inputs. Common problems that lead to stalling are electrical issues, low quality fuel or clogged fuel filer. Other issues may include a damaged carburetor oil switch. ==Use in long-tail boats==