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First of all, you cannot change the distance that a force acts through
without changing the force.
But we see what you're getting at . . . you're asking what the mechanical advantage is
if the force doesn't change on its way through the machine.
The definition of the mechanical advantage is: (output force) divided by (input force).
So if the input and output forces are equal, then the MA is 1 .
What else can I help you with?
What is the mechanical advantage is a machine that changes only the direction of the applied force?
if only the direction changes,the input force will be the same as the output force.the mechanical advantage will always be 1.
What is the mechanical advantage of a machine that changes only the direction of applied force?
if only the direction changes,the input force will be the same as the output force.the mechanical advantage will always be 1.
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
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 a wedge changes a input force?
A wedge increases the distance over which a force is applied, resulting in a decrease in the amount of force needed to accomplish a task. This is achieved by converting the input force into two forces acting perpendicular to the inclined surfaces of the wedge, thereby increasing the mechanical advantage of the system.
What happens when a pivot point of a lever changes?
When the pivot point of a lever changes, it can affect the mechanical advantage of the lever. Moving the pivot closer to the load decreases the force required to lift it but increases the distance over which the force must be applied. Conversely, moving the pivot closer to the effort force increases the force required to lift the load but decreases the distance over which the force must be applied.
Why is the mechanical advantage of a simple fixed pulley always 1?
A fixed pulley redirects the force applied to it without providing any mechanical advantage, as it only changes the direction of the force, not the magnitude. Therefore, the mechanical advantage of a simple fixed pulley is always 1.
The mechanical advantage of a single fixed pulley is always one because why?
The mechanical advantage of a single fixed pulley is always one because it changes the direction of the force applied without providing any leverage to increase the force. This means that the input force is the same as the output force, resulting in a mechanical advantage of 1.
What is the ideal mechanical advantage of a machine that only changes the direction of the input force?
Mechanical Advantage=1
What is the advantage to using 2 pulleys at the same time?
A single pulley normally gives no mechanical advantage: it changes the direction of the force required.With 2 pulleys the rope or cable is looped around both so that there are several lengths of it pulling the mass. If there are k such strands, each one bears 1/k of the total mass so (if you ignore friction) there is a mechanical advantage of k.____________________________________________The mechanical advantage of two pulleys mounted in a block and tackle is twice the applied force. The lead rope needs to have half the force applied to move the same load, but twice the distance must be moved on the lead rope such that the same total force is applied to the load.
