The propeller on an outboard engine, depending on size and boat application, can either "slow things down", or "speed things up". The determining factor here is prop diameter, and blade pitch, mainly the latter. A 10"x 21" prop for example, has a diameter of 10" ( from blade tip to tip ), and a pitch ( angle of blade opposed to the hub ), of 21 degrees. In theory, the above example would propel the craft 21" each revolution of the propeller. A prop of a higher pitch, 20in and up, would be used in a lighter boat or speed hull application. Also, in higher pitch props, you generally see more cupping in the blades, causing the prop to move more water and thereby causing more resistance. This higher pitch, together with additional cupping, has the effect of causing the engine to work harder in order to achieve and hold a specific speed, or rpm range. On the other end of the equasion, a lower pitch prop, say 10 x 15, would theoretically move the craft only 15in every prop revolution. The blades on a lower pitch propeller are not swept back on the hub, ( when viewed from a side angle ) as they are on the higher pitch props. On some props the blades look to be standing straight up off the hub, offering less resistance as they rotate in the water. These lower pitch propellers are a good choice on heavy and work boat applications. The lower pitch with less cup allows the engine to turn up much easier, and to higher rpm ranges. The important point to keep in mind here is that all engines are designed to run within a specified rpm range. Install the correct size prop that will allow your engine to run within the parameters of this range. ==Another stab at it...== Since the question was put in the Airplanes and Aircraft category, we might look specifically at aircraft propellers. There are two ways an aircraft propeller can slow things down; one is by changing the pitch (angle of the blade) thereby causing the engine to spin faster or slower, and the other is by reducing or eliminating power from the engine, thereby causing the propeller to act as a windmill. In both of these examples (assuming a constant power setting or loss of engine power altogether), the energy needed to spin the powerless (or reduced power) propeller comes from the energy of the moving aircraft and therefore translates to slower airspeed. Hope that helps.
* An airplane with jets slow down by flaps that fold in to reverse the airpane(go on youtube.com and write" how a jet engine slows down" for more information) * An airplane with propellers just spins the other way!
Whilst some propellers are comparatively slow there is an effect called the stroboscopic effect, which at certain revolutions, synchronise reflected light from the blades. This fools the eye into believing the propellers are turning much more slowly than they are.
I do not no but you do
yes
Yes, things such as longer grass and water on the greens will slow a ball down.
Used to stop and slow down things
Friction is the force that causes things to slow down due to contact. When two surfaces rub against each other, friction generates resistance that opposes the motion, ultimately causing the objects to slow down.
positive acceleration is when things speed up; negative acceleration is when things slow down; and zero acceleration is when things do not speed up or slow down, this is called constant speed, or no change in velocity.
motion
Friction is the force that can cause things to slow down. When two surfaces are in contact, friction creates resistance that opposes the motion of the object, leading to a decrease in speed.
Things can slow down due to factors such as friction, resistance, or drag, which can impede movement. Other reasons could include decreased energy input or a change in the environment that affects the motion of an object.
friction and gravity