Characteristics of Sound Waves
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PHXI15:WAVES

354648 The temperature at which the speed of sound in air becomes doubled of its value at \(0^\circ C\) is

1 \(1092^\circ C\)
2 \(819\;K\)
3 \(819^\circ C\)
4 \(546^\circ C\)
PHXI15:WAVES

354649 Velocity of sound in air at the given temperature

1 Decreases with increase in pressure
2 May increase on decrease with pressure
3 Is independent of the variation in pressure
4 Varies directly as the square root of pressure
PHXI15:WAVES

354650 A pressure of \(100\,kPa\) causes a decrease in volume of water by \(5 \times 10^{-3}\) percent. The speed of sound in water is

1 1414
2 1000
3 2000
4 3000
PHXI15:WAVES

354651 A steel rod \(100\;cm\) long is clamped at the middle. The fundamental frequency of longitudinal vibrations of the rod are given to be \(2.53\,kHz\). What is the speed of sound in steel?

1 \(6.2\,km{s^{ - 1}}\)
2 \(5.06\,km{s^{ - 1}}\)
3 \(7.23\,km{s^{ - 1}}\)
4 \(7.45\,km{s^{ - 1}}\)
AIIMS - 2018
For More Updates join with Us
PHXI15:WAVES

354648 The temperature at which the speed of sound in air becomes doubled of its value at \(0^\circ C\) is

1 \(1092^\circ C\)
2 \(819\;K\)
3 \(819^\circ C\)
4 \(546^\circ C\)
PHXI15:WAVES

354649 Velocity of sound in air at the given temperature

1 Decreases with increase in pressure
2 May increase on decrease with pressure
3 Is independent of the variation in pressure
4 Varies directly as the square root of pressure
PHXI15:WAVES

354650 A pressure of \(100\,kPa\) causes a decrease in volume of water by \(5 \times 10^{-3}\) percent. The speed of sound in water is

1 1414
2 1000
3 2000
4 3000
PHXI15:WAVES

354651 A steel rod \(100\;cm\) long is clamped at the middle. The fundamental frequency of longitudinal vibrations of the rod are given to be \(2.53\,kHz\). What is the speed of sound in steel?

1 \(6.2\,km{s^{ - 1}}\)
2 \(5.06\,km{s^{ - 1}}\)
3 \(7.23\,km{s^{ - 1}}\)
4 \(7.45\,km{s^{ - 1}}\)
AIIMS - 2018
NEET DIGITAL LIBRARY
PHXI15:WAVES

354648 The temperature at which the speed of sound in air becomes doubled of its value at \(0^\circ C\) is

1 \(1092^\circ C\)
2 \(819\;K\)
3 \(819^\circ C\)
4 \(546^\circ C\)
PHXI15:WAVES

354649 Velocity of sound in air at the given temperature

1 Decreases with increase in pressure
2 May increase on decrease with pressure
3 Is independent of the variation in pressure
4 Varies directly as the square root of pressure
PHXI15:WAVES

354650 A pressure of \(100\,kPa\) causes a decrease in volume of water by \(5 \times 10^{-3}\) percent. The speed of sound in water is

1 1414
2 1000
3 2000
4 3000
PHXI15:WAVES

354651 A steel rod \(100\;cm\) long is clamped at the middle. The fundamental frequency of longitudinal vibrations of the rod are given to be \(2.53\,kHz\). What is the speed of sound in steel?

1 \(6.2\,km{s^{ - 1}}\)
2 \(5.06\,km{s^{ - 1}}\)
3 \(7.23\,km{s^{ - 1}}\)
4 \(7.45\,km{s^{ - 1}}\)
AIIMS - 2018
Join With Us for More Updates
PHXI15:WAVES

354648 The temperature at which the speed of sound in air becomes doubled of its value at \(0^\circ C\) is

1 \(1092^\circ C\)
2 \(819\;K\)
3 \(819^\circ C\)
4 \(546^\circ C\)
PHXI15:WAVES

354649 Velocity of sound in air at the given temperature

1 Decreases with increase in pressure
2 May increase on decrease with pressure
3 Is independent of the variation in pressure
4 Varies directly as the square root of pressure
PHXI15:WAVES

354650 A pressure of \(100\,kPa\) causes a decrease in volume of water by \(5 \times 10^{-3}\) percent. The speed of sound in water is

1 1414
2 1000
3 2000
4 3000
PHXI15:WAVES

354651 A steel rod \(100\;cm\) long is clamped at the middle. The fundamental frequency of longitudinal vibrations of the rod are given to be \(2.53\,kHz\). What is the speed of sound in steel?

1 \(6.2\,km{s^{ - 1}}\)
2 \(5.06\,km{s^{ - 1}}\)
3 \(7.23\,km{s^{ - 1}}\)
4 \(7.45\,km{s^{ - 1}}\)
AIIMS - 2018
For More Updates join with Us