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The 'ideal' mechanical advantage is length of the effort arm/length of the load arm .
Since the Mechanical Advantage of the inclined plane is inversely proportional to its height, increasing the height would lower your mechanical advantage and lowering the height would increase it.Alternately, mechanical advantage is directlyproportional to an inclined plane's length, therefore increasing the length would increase your mechanical advantage.
Length/ Hieght
Ideal Mechanical Advantage
The ideal mechanical advantage of an inclined plane is a ratio describing the length one has to travel to raise a load by a desired height. To obtain this ratio, divide the length of the plane's sloped face by the height of the inclined plane. IMA = Slope length / height
. fixed-length instructions · advantage: fixed-length instruction is fast and results in better performancewhen instruction levelpipelining is used. · Diadvantage: wastes space b. variable-length instructions · Advantage: Variable-length instruction saves storage space/ · Disadvantage: more complex to decode
One of its advantage is to save storage space.
The 'ideal' mechanical advantage is length of the effort arm/length of the load arm .
Since the Mechanical Advantage of the inclined plane is inversely proportional to its height, increasing the height would lower your mechanical advantage and lowering the height would increase it.Alternately, mechanical advantage is directlyproportional to an inclined plane's length, therefore increasing the length would increase your mechanical advantage.
Length/ Hieght
Ideal Mechanical Advantage for an Inclined Plane is equal to the length of the incline divided by the height of the incline.
The mechanical advantage of an inclined plane is equal to length divided by height (l/h). Therefore, if the length is less than than the height, the mechanical advantage would be less than one.
Ideal Mechanical Advantage
you divide the length of the wegde's thickness
The ideal mechanical advantage of an inclined plane is a ratio describing the length one has to travel to raise a load by a desired height. To obtain this ratio, divide the length of the plane's sloped face by the height of the inclined plane. IMA = Slope length / height
Mechanical advantage= effort arm length/ load arm length For Example Effort arm=120 cm Load arm length= 40 cm MA-120/40 = 3
the formula for the mechanical advantage of an inclined plane is the length divide by the height.