The more moving/mechanical components in a system the greater likelihood of a part failing. remember that no part is ever manufactured exactly, there is always a tolerance (an amount the dimension/specification can vary by) cumulatively this increase the more parts you add.
Basically a simple machine has less things that can break and is easier to maintain.
output force
Lengthen the input lever.
friction affects the M.A in a simple machine.
lado
friction affects the M.A in a simple machine.
mechanical advantage
The velocity factor of a wheel depends on its diameter. If we take the velocity factor as a measure of how far the vehicle moves in one revolution of the wheel, then it is equal to the circumference of the wheel, which is pi times the diameter.
The velocity factor of a wheel depends on its diameter. If we take the velocity factor as a measure of how far the vehicle moves in one revolution of the wheel, then it is equal to the circumference of the wheel, which is pi times the diameter.
Scissors work by lever action. As you squeeze your fingers together, it causes the blades to cross one another which is how the cutting gets done. Then when you move your fingers apart, it opens the blades so that you can move to the next section of paper.
friction affects the M.A in a simple machine.
mechanical advantage
In physics and engineering, mechanical advantage(MA) is the factor by which a mechanism multiplies the force or torque put into it. Generally, the mechanical advantage is calculated as follows: or more simply:
output force (:
The mechanical advantage of the lever is that smaller persons can move heavier objects. The lever can be placed under the object and the person can then push down on the lever.
radius
radius
radius
Their radii (radiuses) can.
output force
The mechanical advantage is 10.We use machines to make our work easier and faster.Mechanical advantage gives an idea of how much a mechanism makes our work easier.It is the factor by which the mechanism multiplies the force or torque applied.One way of calculating mechanical advantage is:Mechanical Advantage= (output force)/ (input force)So using this formula to answer the question above, the result is20/2 = 10
mechanical