load force divided by effort force
The mechanical advantage of a trebuchet can be calculated by dividing the length of the long arm (from the pivot point to the location where the counterweight is attached) by the length of the short arm (from the pivot point to the sling pouch where the projectile is placed). This ratio represents how much the trebuchet amplifies the input force applied to the short arm to launch the projectile.
A trebuchet is a Class 1 lever since the fulcrum is placed between the effort (pulling the counterweight) and the load (the projectile). This lever type allows for a mechanical advantage that enables the trebuchet to launch projectiles with great force and distance.
you have to divide idk * * * * * You can find the ideal mechanical advantage of a wheel and axle by dividing the radius of the wheel by the radius of the axle.
The mechanical advantage of a ramp is calculated by dividing the length of the ramp by the vertical rise. This ratio represents how much less force is required to move an object up the ramp compared to lifting it straight up. The formula for mechanical advantage of a ramp is: Mechanical Advantage = Length of ramp / Vertical rise.
The mechanical advantage is 5. This means that for every 1 N of force you exert, the machine will output 5 N of force.
Output force can be found by multiplying the input force by the mechanical advantage of a machine. The mechanical advantage is the factor by which a machine multiplies the input force to generate the output force. The formula for calculating mechanical advantage is output force/input force.
you have to divide idk * * * * * You can find the ideal mechanical advantage of a wheel and axle by dividing the radius of the wheel by the radius of the axle.
mechanical advantage= output force over input force
The "Ideal Mechanical Advantage" of a simple machine isIMA = output force /input force . To find the 'actual' or real-world mechanical advantage,multiply the IMA by the machine's efficiency.
more power than a human could provide
you have to divide idk * * * * * You can find the ideal mechanical advantage of a wheel and axle by dividing the radius of the wheel by the radius of the axle.
In theory a wheel and axle has only one mechanical advantage. You can find the ideal mechanical advantage of a wheel and axle by dividing the radius of the wheel by the radius of the axle.
The mechanical advantage of a ramp is calculated by dividing the length of the ramp by the vertical rise. This ratio represents how much less force is required to move an object up the ramp compared to lifting it straight up. The formula for mechanical advantage of a ramp is: Mechanical Advantage = Length of ramp / Vertical rise.
the higher you place the pivot point on the lever, the higher the stone will go. the lower you place it the lower the stone will go.
You can find the ideal mechanical advantage of a wheel and axle by dividing the radius of the wheel by the radius of the axle.
The mechanical advantage is 5. This means that for every 1 N of force you exert, the machine will output 5 N of force.
Mechanical Advantage;The ratio of load and effort is called mechanical advantage of any machine.Mathematical Formula Of Mechanical AdvantageMechanical Advantage = Load / EffortUnit Of Mechanical AdvantageAs mechanical advantage is the ratio of two forces, therefore it has no unit.
The mechanical Advantage is FORCE TIMES DISTANCE