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In a movable pulley system where does the other effort come from?
In a movable pulley system, the other effort comes from the weight of the object being lifted. The movable pulley reduces the amount of force needed to lift the object by distributing the load between the pulling force and the weight of the object. As a result, the effort needed to lift the object is divided between the pulling force and the weight of the object itself.
How do you calculate effort force in pulley system?
To calculate the effort force in a pulley system, start by counting the number of supporting ropes that are directly attached to the movable pulley. Divide the total weight being lifted by this number to find the effort force needed to lift the weight. This assumes an ideal pulley system with no friction or other resistive forces.
How much effort force would you use to lift a 300kg weight with a movable pulley system?
With a movable pulley system, you would need to exert an effort force equal to half the weight being lifted. In this case, to lift a 300kg weight, you would need to apply an effort force of 150kg. This is because movable pulleys provide a mechanical advantage of 2, reducing the amount of effort force needed.
How much effort force would you use to lift a 300 kg weight with a movable pulley system?
In a movable pulley system, the effort force required is half of the weight being lifted. So, to lift a 300 kg weight, you would need to apply an effort force equal to 150 kg.
Does weight affect a pulley?
Yes, weight has a huge effect on a pulley system. The amount of weight being moved or lifted directly affects how well the pulley works, and too much weight can break it altogether. Weight is also the main leverage in a pulley system.
In a movable pulley system where does the other effort come from?
In a movable pulley system, the other effort comes from the weight of the object being lifted. The movable pulley reduces the amount of force needed to lift the object by distributing the load between the pulling force and the weight of the object. As a result, the effort needed to lift the object is divided between the pulling force and the weight of the object itself.
How do you calculate effort force in pulley system?
To calculate the effort force in a pulley system, start by counting the number of supporting ropes that are directly attached to the movable pulley. Divide the total weight being lifted by this number to find the effort force needed to lift the weight. This assumes an ideal pulley system with no friction or other resistive forces.
How much effort force would you use to lift a 300kg weight with a movable pulley system?
With a movable pulley system, you would need to exert an effort force equal to half the weight being lifted. In this case, to lift a 300kg weight, you would need to apply an effort force of 150kg. This is because movable pulleys provide a mechanical advantage of 2, reducing the amount of effort force needed.
How are the double pulley systems different?
Double pulley systems are different from the one pulley system because the weight is now attacked to a pulley instead of an anchor. Another pulley is used to take some of the weight. A two pulley system only requires half the effort as a single pulley system.
How much effort force would you use to lift a 300 kg weight with a movable pulley system?
In a movable pulley system, the effort force required is half of the weight being lifted. So, to lift a 300 kg weight, you would need to apply an effort force equal to 150 kg.
How much effort force would you use to lift a kg weight with a fixed pulley system?
a lot
Does weight affect a pulley?
Yes, weight has a huge effect on a pulley system. The amount of weight being moved or lifted directly affects how well the pulley works, and too much weight can break it altogether. Weight is also the main leverage in a pulley system.
How much effort force would you use to lift a 300-kg weight with a moveable pulley system?
150
How much effort force would you use to lift 300 kg weight with a fixed pulley system?
a lot
What is the ideal pulley system for lifting heavy objects efficiently?
The ideal pulley system for lifting heavy objects efficiently is a compound pulley system. This system consists of multiple pulleys working together to distribute the weight and reduce the amount of force needed to lift the object. By using multiple pulleys, the load is divided among them, making it easier to lift heavy objects with less effort.
How much effort is exerted if the weight is 400 grams and the pulley used is a movable pulley?
For a movable pulley, the effort required would be half of the weight being lifted. So with a weight of 400 grams, the effort exerted would be 200 grams. The movable pulley helps distribute the load, making it easier to lift the weight.
How much weight can a pulley lift?
The amount of weight a pulley can lift depends on factors such as the design of the pulley system, the strength of the rope or cable used, and the efficiency of the pulley itself. However, a single fixed pulley does not provide any mechanical advantage and can only lift as much weight as is being applied to it.
