Answer:
When the mass on the string is increased while maintaining the same number of loops, the frequency of the motion decreases.
Explanation:
The frequency of a wave or oscillation refers to the number of complete cycles or vibrations that occur in a given time period. In the context of a mass on a string, this frequency is determined by the tension in the string and the mass of the object.
As the mass on the string is increased, the tension in the string also increases. This increase in tension results in a decrease in the frequency of the motion. This is because the higher tension requires more force to move the heavier mass, which slows down the motion and reduces the number of cycles or vibrations that can occur in a given time period.
To illustrate this, imagine a simple pendulum. If you increase the mass of the bob (the weight at the end of the string), the pendulum will swing back and forth at a slower rate, resulting in a lower frequency. Similarly, when the mass on a string is increased, the frequency of the motion decreases in order to maintain the same number of loops.
