Tension in the strings is 100 N mass per unit length of strings is 0.01 kg/m, velocity of sound in air is 320 m/s.
Column I : gives situation.
Column II : gives frequency of resonance.
Column III: gives wavelength for corresponding resonating frequency.

Pick correct combination.

In each of the four situations of column-I , a stretched string or an organ pipe is given along with the required data. In case of strings the tension in string is T=102.4 N and the mass per unit length of string is 1g/m. Speed of sound in air is 320 m/s. Neglect end corrections.The frequencies of resonance are given in column-II.Match each situation in column-I with the possible resonance frequencies given in Column-II.

Velocity of sound in air is 320 m/s. For an organ pipe closed at one end of length 2 m the resonating frequency may be

Velocity of secnod in air is 320 m/s. Neglecting end correctionss, the air column in the pipe can resonate for sound of frequency

velocity of sound in air is 320 m/s. A pipe closed at one end has a length of 1 m. Neglecting end corrections, the air column in the pipe can resonates for sound of frequency

Velocity of sound in air is 320 m//s . The resonant pipe shown in Fig. 7.81 cannot vibrate with a sound of frequency .

A narrow pipe of length 2m is closed at one end. The velocity of sound in air is 320 m/s. Neglecting end corrections , the air column in the pipe will resonate for sound of frequencies :

A pipe 1 m length is closed at one end. Taking the speed of sound in air as 320ms ^(-1) .the air column in the pipe cannot resonate for the frequency (in Hz )

Establish the relationship between speed of sound, its wavelength and frequency. If velocity of sound in air is 340 m//s , calculate : (i) wavelength when frequency is 256 Hz . (ii) frequency when wavelength is 0.85 m .

An organ pipe closed at one end has a length 1m and an open organ pipe has a length 1.6 m . The speed of sound in air is 320 m/s . The two pipes can resonates for a sound of frequency

A standing tuning fork of frequency f is used to find the velocity of sound in air by resonance column appartus. The difference two resonating lengths is 1.0 m . Then the velocity of sound in air is