The air column in a resonance tube is set into resonance by a vibrating tuning fork. The resultant waves in the air column will be

Answer Details

When a vibrating tuning fork is placed near the open end of a resonance tube, it creates sound waves that travel down the tube. If the length of the tube is such that a standing wave is set up, the air column in the tube will resonate at a certain frequency. In a resonance tube, the waves created by the tuning fork will be longitudinal waves, which means that the vibrations of the air particles will be parallel to the direction of wave propagation. This is because sound waves are always longitudinal waves in air and other fluids. When the waves reach the closed end of the tube, they are reflected back and interfere with the incoming waves to form standing waves. These standing waves are stationary, which means that the air particles at each point in the tube are oscillating back and forth, but not moving in any particular direction. Therefore, the resultant waves in the air column of a resonance tube set into resonance by a vibrating tuning fork are stationary and longitudinal.