Understanding Uniform Circular Motion: What Happens When the String Snaps?

What would happen to a block exhibiting uniform circular motion if the string were to snap?

A. It will continue along a path tangent to the circle.

B. It will follow a path perpendicular to the circle.

C. It will follow a curved path, spiraling outward.

D. The path cannot be know without first knowing mass and velocity.

Final Answer:

If the string snaps while the block exhibits uniform circular motion, the block will continue in a straight line path, tangent to the circle at the point of release due to Newton's first law.

When spinning a small block tied to the end of a string, exhibiting uniform circular motion, it is important to understand what happens if the string were to snap. According to Newton's first law of motion, an object in motion will continue in a straight line path unless acted upon by an external force.

Therefore, if the string snaps while the block is moving in a circular path, the block will no longer be restricted by the centripetal force provided by the tension in the string. As a result, the block will move in a straight line path tangent to the circle at the point where the string broke.

This concept highlights the importance of understanding the principles of Newtonian physics when dealing with circular motion and the consequences of any disruption to the forces involved. It's a clear example of how an object's motion can be affected by external factors and the laws that govern such motion.

← Elastic collision reflecting on conservation laws Reflecting on flow rate calculation using hazen williams method →