Final answer:
When the crank is turned clockwise, the slider in a mechanism that converts rotational motion to linear motion will move along its path in a motion that is determined by the specific design of the mechanism.
Step-by-step explanation:
When the crank is turned in a clockwise direction, it influences the motion of the slider, which is part of a mechanism that converts rotational motion into linear motion. This is related to principles of circular motion and mechanics. As the crank rotates, it pushes or pulls the slider along its designated path. The exact motion of the slider will depend on the specifics of the mechanism. For instance, in a simple crank and slider mechanism, the slider would move linearly back and forth in response to the crank's rotation.
If considering a context like a bicycle or engine with a crankshaft, the clockwise turning of the crank will push the slider or piston in one direction, typically either upwards or downwards depending on the position of the crank in its cycle. Practical examples of this include the translation of rotational motion to linear motion in engines. This is a concept found in Physics, where forces and motion are fundamental topics of study.