Pulley System Calculator
Calculate the mechanical advantage and required effort force for a compound pulley system.
Actual Effort Force
277.8 N
Actual Effort Force vs Number of Supporting Rope Segments
Formule
## Compound Pulley Mechanical Advantage A pulley system reduces the effort needed to lift a load by distributing the weight across multiple rope segments. ### Formulas **Ideal MA = number of supporting rope segments (n)** **Effort = W / (n x efficiency)** **Rope travel = n x lift distance** The trade-off is that you must pull n times more rope to lift the load a given distance. Friction in each pulley sheave reduces the actual mechanical advantage.
Exemple Résolu
A 4-part block and tackle lifting 1000 N at 90% efficiency.
- 01Ideal MA = 4
- 02Ideal effort = 1000 / 4 = 250 N
- 03Actual effort = 1000 / (4 x 0.9) = 277.8 N
- 04Rope travel = 4 m of rope per 1 m of lift.
Questions Fréquentes
How do I count the number of supporting segments?
Count the number of rope segments going to the moving block (the block attached to the load). Each segment supports a share of the load. Do not count the segment where you pull.
What causes efficiency loss in pulleys?
Each pulley sheave introduces friction losses of about 2-10% depending on bearing type. Wire rope on a sheave has more friction than nylon rope. Efficiency drops with more pulleys in the system.
What is the maximum practical number of pulleys?
Systems with more than 6-8 pulleys become unwieldy because of cumulative friction, rope weight, and complexity. For very heavy loads, use a winch or hydraulic system instead.
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