That's going to depend on
-- the radius from the center to the point where the input force is applied,
-- the angle in the plane of the wheel between the direction of the force and
the radius to it, and
-- the radius from the center to the point where the output force is measured.
None of that information is included in the question, so nobody is in a position
to speculate on an answer yet.
Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.
The actual mechanical advantage is calculated as the ratio of the output force to the input force. In this case, the output force is 400 N (the weight lifted) and the input force is 100 N. Therefore, the actual mechanical advantage is 400 N / 100 N = 4.
To find the output force, you can use the formula: Output force = Input force × Mechanical advantage. In this case, if the mechanical advantage is 4 and the input force is 20 N, the output force would be 80 N (20 N × 4).
80 Is the Output force
The output force exerted by a movable pulley is equal to the input force applied. Therefore, if the input force is 50 N, the output force exerted by the movable pulley will also be 50 N.
Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.
100 N due to newton's third law that every action has an opposite and equal reaction.
The actual mechanical advantage is calculated as the ratio of the output force to the input force. In this case, the output force is 400 N (the weight lifted) and the input force is 100 N. Therefore, the actual mechanical advantage is 400 N / 100 N = 4.
The system is 100% efficient. Step 1: Find out Mechanical Advantage so that you can find out input force MA = input distance/output distance = 2.5m / 4.5 m = 0.5555555 Step 2: Find input force AMA = output force / input force 0.5555555 = 250 N / input force input force = 250 N/ 0.5555555 input force = 450 N Step 3: Solve for mechanical efficiency ME = ((output force x output distance) / (input force x input distance)) x 100% = ((250 N x 4.5 m) / (450 N x 2.5 m)) x 100% = (1125 Nm / 1125 Nm) x 100% = 1 x 100% = 100% *** MA = Mechanical Advantage *** AMA = Actual Mechanical Advantage *** ME = Mechanical Efficiency
The idea is to divide the output force by the input force.
To find the output force, you can use the formula: Output force = Input force × Mechanical advantage. In this case, if the mechanical advantage is 4 and the input force is 20 N, the output force would be 80 N (20 N × 4).
80 Is the Output force
The output force exerted by a movable pulley is equal to the input force applied. Therefore, if the input force is 50 N, the output force exerted by the movable pulley will also be 50 N.
The mechanical advantage is the ratio of the output force to the input force. MA = output/input (output force divided by the input force) For the example, 15N/30N gives the MA as 0.5 (one half).
The mechanical advantage is calculated by dividing the output force by the input force. In this case, the mechanical advantage would be 25 N (output force) divided by 5 N (input force), resulting in a mechanical advantage of 5.
The mechanical advantage is the ratio of the output force to the input force. MA = output/input (output force divided by the input force) For the example, 15N/30N gives the MA as 0.5 (one half).
The input force is the force that John applies to the wrench, which is N. The output force is the force that the wrench applies to the bolt, which is also N.