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In a mechanical advantage system, the force is multiplied by the factor of the mechanical advantage. The formula for mechanical advantage is MA = output force / input force. This means the force can be multiplied by the mechanical advantage value.
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.
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
When a machine has a certain mechanical advantage, it means that it can multiply the input force applied to it. Mechanical advantage is calculated as the output force divided by the input force required to lift a load. Machines with a mechanical advantage greater than 1 make it easier to lift heavy objects.
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.
In a mechanical advantage system, the force is multiplied by the factor of the mechanical advantage. The formula for mechanical advantage is MA = output force / input force. This means the force can be multiplied by the mechanical advantage value.
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.
it means the mechanical advantage is greater.
it means the mechanical advantage is greater.
Mechanical advantage is a measure of the force amplification achieved by using a tool. This means the ideal mechanism does not include a power source.
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
When a machine has a certain mechanical advantage, it means that it can multiply the input force applied to it. Mechanical advantage is calculated as the output force divided by the input force required to lift a load. Machines with a mechanical advantage greater than 1 make it easier to lift heavy objects.
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.
The formula to calculate effort distance in mechanical advantage is Effort Distance = Load Distance / Mechanical Advantage. This means that effort distance is the distance over which the effort force is applied to move the load in a machine.
The mechanical advantage of the lever can be calculated by dividing the output force (48 N) by the input force (12 N), which gives a mechanical advantage of 4. This means that the lever provides a mechanical advantage of 4, making it easier to lift the object.
The mechanical advantage of the pulley system in this case is 1:1. This means that the input force and output force are equal, resulting in no mechanical advantage gained.
mechanical advantage