Final Answer:
If a crank is turned clockwise, the slider will move to the right (Option b).
Step-by-step explanation:
In mechanisms, the relationship between the motion of a crank and a slider is governed by the basic principles of kinematics. A crank is a rotating lever that converts rotary motion into reciprocating motion. When the crank is turned clockwise, it imparts rotational motion. This rotational motion is then transmitted to the slider, causing it to move along a straight path.
The direction of the slider's movement is determined by the rotational direction of the crank. In this case, a clockwise rotation of the crank results in the slider moving to the right. This relationship is fundamental in understanding the functionality of various mechanical systems, such as engines, pumps, and other devices that involve the conversion of rotary motion to linear motion. It's essential to grasp these principles for designing and analyzing mechanical systems effectively.
In engineering and physics, understanding the effects of rotational motion on connected components is crucial for designing machinery and predicting the behavior of mechanical systems. The clockwise movement of the crank causing the slider to move to the right exemplifies the practical application of these principles in real-world mechanisms.
So correct option is (Option b).