Please answer the conclusion part.

Experiment 1: Relationship between wavelength and frequency Set to "Oscillate" and "No End" Keep the ruler and timer on Set the frequency to 1 and tension to low Measure the time it takes for a wave to travel the length of the string Measure the length of a single wave length. Do the same measurements at Frequency = 2 and 3 Repeat the experiment at moderate and high tension Results: Tension Frequency Time to Wavelength Speed = Frequency X travel the Length/time wavelength length of the string Low 1 6.02s 0.012m 0.0125m/s 0.012 Low 2 5.99s 0.006m 0.0125m/s 0.012 Low 3 6.02s 0.004m 0.0125m/s 0.012 Moderate 1 2s 0.037m 0.038m/s 0.037 Moderate 2 1.99s 0.018m 0.038m/s 0.036 Moderate 3 1.98s 0.012m 0.038m/s 0.036 High 1 1.15s 0.052m 0.065m/s 0.052 High 2 1.15s 0.031m 0.065m/s 0.062 High 3 1.15s 0.021m 0.065m/s 0.063 Conclusion: 1. If the tension remains constant and the frequency increases, what happens to the wavelength? 2. Is there any pattern in the last two columns of the table (speed and Frequency X wavelength)? 3. What is the relationship between frequency, wavelength and speed of a wave