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What is the relationship between the tension in pulley systems and the mechanical advantage they provide?
The tension in pulley systems is directly related to the mechanical advantage they provide. As the tension in the system increases, the mechanical advantage also increases. This means that a higher tension in the pulley system allows for a greater mechanical advantage, making it easier to lift heavy loads.
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What is the mechanical advantage of a fixed pulley?
A fixed pulley has a mechanical advantage of 1, which means it doesn't provide any mechanical advantage in terms of force. It changes the direction of the force applied without multiplying it.
The type of pully that does not have a mechanical advantage is?
The simple pulley is the type of pulley that does not have a mechanical advantage.
What kind of pulley has an ideal mechanical advantage of 2?
The kind of pulley has an ideal machanical advantage of 2 is called "Movable Pulley". From, Bryan Hollick
How many time a force multiplied by a machine is the mechanical?
Mechanical Advantage
Which are types of pulley system gives us the maximum mechanical advantage?
A system with three or more pulleys would provide the maximum mechanical advantage. As the number of pulleys increases, the mechanical advantage also increases, making it easier to lift heavy loads.
Does a fixed pulley provide mechanical advantage?
yes
What is the mechanical advantage of a fixed pulley?
A fixed pulley has a mechanical advantage of 1, which means it doesn't provide any mechanical advantage in terms of force. It changes the direction of the force applied without multiplying it.
The type of pully that does not have a mechanical advantage is?
The simple pulley is the type of pulley that does not have a mechanical advantage.
What kind of pulley has an ideal mechanical advantage of 2?
The kind of pulley has an ideal machanical advantage of 2 is called "Movable Pulley". From, Bryan Hollick
How many time a force multiplied by a machine is the mechanical?
Mechanical Advantage
Which are types of pulley system gives us the maximum mechanical advantage?
A system with three or more pulleys would provide the maximum mechanical advantage. As the number of pulleys increases, the mechanical advantage also increases, making it easier to lift heavy loads.
What is the mechanical advantage of a fixed and free pulley?
A fixed pulley does NOT multiply the effort force or have a mechanical advantage. It only changes the direction of the effort force. A free pulley multiplies the effort by two. this means the free pulley has a mechanical advantage of 2.information from:www.mhscience02.com
What general statement can be made about the height of an inclined plane and it's actual and ideal mechanical advantage?
As the height of an inclined plane increases, both the actual and ideal mechanical advantage also increase. This is because the mechanical advantage of an inclined plane is directly related to its slope, so a steeper incline will provide greater mechanical advantage compared to a shallower one.
What two things provide a mechanical advantage greater than one?
lever, gear train
What is the ideal mechanical advantage and the direction of the input and output for a fixed pulley?
The ideal mechanical advantage of a fixed pulley is 1, as it does not provide any mechanical advantage in terms of force. The direction of the input (effort) and output (load) for a fixed pulley is the same, as the pulley simply changes the direction of the force applied.
How is the mechanical advantage of a movable pulley determined?
The method to calculate mechanical advantage is easy to remember and is necessary when rigging the assembly to accomplish the job. The mechanical advantage of a rigging that will require upward pull can be determined by counting the number of rope lengths running between engaged pulleys and those doing the work. Likewise, if the assembly will require downward pull, count the ropes and subtract one to get the mechanical advantage number. The subtraction is necessary because with the fixed pulley, the downward pull equals the load on the other length of rope so the last "pull" rope does not provide any mechanical advantage.
What is the ma of a machine that has an f out equal to its f in?
The mechanical advantage (MA) of a machine that has an output force equal to its input force is 1. This means that the machine does not provide any mechanical advantage, as the output force is equal to the input force.
