Final answer:
A machine with an ideal mechanical advantage of six will ideally multiply an input force of one unit into an output force of six units, assuming no losses due to friction or other inefficiencies.
Step-by-step explanation:
If a machine has an ideal mechanical advantage (IMA) of six, it implies that the machine is designed to multiply the input force by 6 times. Therefore, applying a force of one unit to this machine would ideally result in an output force of six units. In the ideal scenario, where no energy is lost to friction or other inefficiencies, the machine would effortlessly convert a lesser input force into a significantly greater output force. This calculation simply involves multiplying the input force by the machine's mechanical advantage: 1 unit of force × 6 (IMA) = 6 units of force output.
However, it's important to note that this is under ideal conditions. Real machines have inefficiencies, such as friction, which reduce the actual mechanical advantage. The efficiency of a machine would need to be considered to determine the real-world output force, which will generally be less than the idealized 6 units.