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Class 10 Physics Sound


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Class 9Class 10First YearSecond Year
11.4.Whymustthevolumeofastereoinaroomwithwalltowallcarpetbetunedhigherthaninaroomwithawoodenfloor?11.4. Why must the volume of a stereo in a room with wall-to-wall carpet be tuned higher than in a room with a wooden floor?

Example 2.1 A sitar string vibrates at 400 \mathrm{~Hz} . What is the time period of this vibration?
Example  2.1 A sitar string vibrates at  400 \mathrm{~Hz} . What is the time period of this vibration?

Example2.1Asitarstringvibratesat400 Hz.Whatisthetimeperiodofthisvibration?Example 2.1 A sitar string vibrates at 400 \mathrm{~Hz} . What is the time period of this vibration?

iv. Astronauts in space need to communicate with each other by radio links because(a) sound waves travel very slowly in space(b) sound waves travel very fast in space(c) sound waves cannot travel in space(d) sound waves have low frequency in space
iv. Astronauts in space need to communicate with each other by radio links because(a) sound waves travel very slowly in space(b) sound waves travel very fast in space(c) sound waves cannot travel in space(d) sound waves have low frequency in space

iv.Astronautsinspaceneedtocommunicatewitheachotherbyradiolinksbecause(a)soundwavestravelveryslowlyinspace(b)soundwavestravelveryfastinspace(c)soundwavescannottravelinspace(d)soundwaveshavelowfrequencyinspaceiv. Astronauts in space need to communicate with each other by radio links because(a) sound waves travel very slowly in space(b) sound waves travel very fast in space(c) sound waves cannot travel in space(d) sound waves have low frequency in space

vi. For a normal person audible frequency range for sound wave lies between(a) 10 \mathrm{~Hz} and 10 \mathrm{kHz} (b) 20 \mathrm{~Hz} and 20 \mathrm{kHz} (c) 25 \mathrm{~Hz} and 25 \mathrm{kHz} (d) 30 \mathrm{~Hz} and 30 \mathrm{kHz}
vi. For a normal person audible frequency range for sound wave lies between(a)  10 \mathrm{~Hz}  and  10 \mathrm{kHz} (b)  20 \mathrm{~Hz}  and  20 \mathrm{kHz} (c)  25 \mathrm{~Hz}  and  25 \mathrm{kHz} (d)  30 \mathrm{~Hz}  and  30 \mathrm{kHz}

vi.Foranormalpersonaudiblefrequencyrangeforsoundwaveliesbetween(a)10 Hzand10kHz(b)20 Hzand20kHz(c)25 Hzand25kHz(d)30 Hzand30kHzvi. For a normal person audible frequency range for sound wave lies between(a) 10 \mathrm{~Hz} and 10 \mathrm{kHz} (b) 20 \mathrm{~Hz} and 20 \mathrm{kHz} (c) 25 \mathrm{~Hz} and 25 \mathrm{kHz} (d) 30 \mathrm{~Hz} and 30 \mathrm{kHz}

11.17. Describe the importance of acoustic protection.
11.17. Describe the importance of acoustic protection.

11.17.Describetheimportanceofacousticprotection.11.17. Describe the importance of acoustic protection.

11.9. What do you mean by the term intensity level of the sound? Name and define the unit of intensity level of sound.
11.9. What do you mean by the term intensity level of the sound? Name and define the unit of intensity level of sound.

11.9.Whatdoyoumeanbythetermintensitylevelofthesound?Nameanddefinetheunitofintensitylevelofsound.11.9. What do you mean by the term intensity level of the sound? Name and define the unit of intensity level of sound.

11.7. A ship sends out ultrasound that returns from the seabed and is detected after 3.42 \mathrm{~s} . If the speed of ultrasound through seawater is 1531 \mathrm{~ms}^{-1} what is the distance of the seabed from the ship?Ans. (2618 m)
11.7. A ship sends out ultrasound that returns from the seabed and is detected after  3.42 \mathrm{~s} . If the speed of ultrasound through seawater is  1531 \mathrm{~ms}^{-1}  what is the distance of the seabed from the ship?Ans. (2618 m)

11.7.Ashipsendsoutultrasoundthatreturnsfromtheseabedandisdetectedafter3.42 s.Ifthespeedofultrasoundthroughseawateris1531 ms1whatisthedistanceoftheseabedfromtheship?Ans.(2618m)11.7. A ship sends out ultrasound that returns from the seabed and is detected after 3.42 \mathrm{~s} . If the speed of ultrasound through seawater is 1531 \mathrm{~ms}^{-1} what is the distance of the seabed from the ship?Ans. (2618 m)

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