When lifting a weight with a pulley system, what is the trade-off for an increased mechanical advantage?

In a pulley system, when you increase the mechanical advantage, you can lift heavier weights with less force. This mechanical advantage is achieved by spreading the load across multiple pulleys. However, the trade-off comes in the form of increased effort over a longer distance.

When you pull down on a rope in a pulley system with a greater mechanical advantage, you may find that you have to pull that rope a much longer distance to lift the weight the same height. For example, if a system has a mechanical advantage of 4, you may need to pull the rope down 4 times as far as the weight is lifted. While this allows you to lift heavier weights with less force, the trade-off is that your work input remains the same in terms of energy, as you exert effort over a greater distance to achieve the lift.

So, the choice indicating increased effort over a longer distance accurately reflects the consequences of increasing mechanical advantage in a pulley system, where lifting becomes easier in terms of force but requires more movement of the lifting mechanism.