in the experiment to identify pitch of sound to blades of length 20cm and 25 cm or placed in the air which blade is shriller a)20cm blade b)25cm blade c)both the blades have same shrillnes d)there is no relation between shrillness and length of the blade
Answers
a)20cm blade
is the right answer
Answer:
PHYSICS
In Fig. A, B, C and D represent test tubes each of height 20 cm which are filled with water up to heights of 12 cm, 14 cm, 16 cm and 18 cm respectively. if a vibrating tuning fork is placed over the mouth of tube D, a loud sound is heard. Give the reason for your observation in each case.
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ANSWER
When the vibrating fork is brought near the tube D, the adjacent tubes C,B and D are set to vibration and sound is transmitted through those vibrations.
In this case, we can observe that a loud sound is heard with the tube B and a low sound is heard as tubes A and C. This is because the resonance occurs with the air column in tube B whereas no resonance occurs in air column of tubes A and C. The frequency of vibrations of air column in tube B is same as the frequency of vibrations of air column in tube D because the length of air column in tube D is 20 - 18 = 2 cm and that in tube B is 20 - 14 = 6 cm (i.e., three). On the other hand, the frequency of vibrations of air column A and C is not equal to the frequency vibrations of air column in tube B.
Resonance is the tendency of a system to oscillate with greater amplitude at some frequencies than at others. Frequencies at which the response amplitude is a relative maximum are known as the system's resonant frequencies, or resonance frequencies. At these frequencies, even small periodic driving forces can produce large amplitude oscillations, because the system stores vibrational energy.
Resonance occurs when a system is able to store and easily transfer energy between two or more different storage modes (such as kinetic energy and potential energy in the case of a pendulum). However, there are some losses from cycle to cycle, called damping. When damping is small, the resonant frequency is approximately equal to the natural frequency of the system, which is a frequency of unforced vibrations.
