Using a longer lever arm will produce more force.
The one with the highest pressure and largest area will produce the most force.
An object with a larger mass and rotating at a faster speed will produce the most centrifugal force. The force increases with both the mass of the object and the square of its velocity.
An object rotating at a high speed or a heavier object rotating at a slower speed would produce the most centrifugal force. The centrifugal force depends on the mass of the object and the square of the rotational speed.
A force should be applied at the end of the lever arm farthest from the fulcrum to produce the most torque. This maximizes the lever arm length, resulting in a greater moment arm for the force and thus higher torque.
The mechanical advantage of this machine is 0.5. This is calculated by dividing the output force (15 N) by the input force (30 N). This means that the machine reduces the force required by half to produce the desired output force.
The one with the highest pressure and largest area will produce the most force.
An object with a larger mass and rotating at a faster speed will produce the most centrifugal force. The force increases with both the mass of the object and the square of its velocity.
Generates most of the force needed to produce the action.
An object rotating at a high speed or a heavier object rotating at a slower speed would produce the most centrifugal force. The centrifugal force depends on the mass of the object and the square of the rotational speed.
greater pressure on less surface area!
Generates most of the force needed to produce the action.
10 p over 10 m2
A force should be applied at the end of the lever arm farthest from the fulcrum to produce the most torque. This maximizes the lever arm length, resulting in a greater moment arm for the force and thus higher torque.
economy of force
Only if it is an unbalanced force
Yes.Yes.Yes.Yes.
Force produced is reduced, when the muscle is over-stretched or under-stretched it is weaker. Most muscles will produce max force at roughly 90 degrees.