355152 A wire under tension vibrates with a fundamental frequency of \(600\,Hz\). If the length of the wire is doubled, the radius is halved and the wire is made to vibrate under one-ninth the tension. Then the fundamental frequency will become

355153 The tension in a stretched string fixed at both ends is changed by \(2 \%\), the fundamental frequency is found to get changed by \(15\;Hz\). Select the incorrect statement.

355154 In a standing wave experiment, a \(1.2\;kg\) horizontal rope is fixed in place at its two ends( \(x\) \(=0\) and \(x = 2.0\;m\)) and made to oscillate up and down in the fundamental mode, at a frequency of \(5.0\,Hz\). At \(t = 0\), the point at \(x = 1.0\;m\) has zero displacement and is moving upward in the positive direction of \(y\) - axis with a transverse velocity \(3.14\;m/s\). The standing wave equation is

355155 In a stationary wave

355152 A wire under tension vibrates with a fundamental frequency of \(600\,Hz\). If the length of the wire is doubled, the radius is halved and the wire is made to vibrate under one-ninth the tension. Then the fundamental frequency will become

355153 The tension in a stretched string fixed at both ends is changed by \(2 \%\), the fundamental frequency is found to get changed by \(15\;Hz\). Select the incorrect statement.

355154 In a standing wave experiment, a \(1.2\;kg\) horizontal rope is fixed in place at its two ends( \(x\) \(=0\) and \(x = 2.0\;m\)) and made to oscillate up and down in the fundamental mode, at a frequency of \(5.0\,Hz\). At \(t = 0\), the point at \(x = 1.0\;m\) has zero displacement and is moving upward in the positive direction of \(y\) - axis with a transverse velocity \(3.14\;m/s\). The standing wave equation is

355155 In a stationary wave

355152 A wire under tension vibrates with a fundamental frequency of \(600\,Hz\). If the length of the wire is doubled, the radius is halved and the wire is made to vibrate under one-ninth the tension. Then the fundamental frequency will become

355153 The tension in a stretched string fixed at both ends is changed by \(2 \%\), the fundamental frequency is found to get changed by \(15\;Hz\). Select the incorrect statement.

355154 In a standing wave experiment, a \(1.2\;kg\) horizontal rope is fixed in place at its two ends( \(x\) \(=0\) and \(x = 2.0\;m\)) and made to oscillate up and down in the fundamental mode, at a frequency of \(5.0\,Hz\). At \(t = 0\), the point at \(x = 1.0\;m\) has zero displacement and is moving upward in the positive direction of \(y\) - axis with a transverse velocity \(3.14\;m/s\). The standing wave equation is

355155 In a stationary wave

355152 A wire under tension vibrates with a fundamental frequency of \(600\,Hz\). If the length of the wire is doubled, the radius is halved and the wire is made to vibrate under one-ninth the tension. Then the fundamental frequency will become

355153 The tension in a stretched string fixed at both ends is changed by \(2 \%\), the fundamental frequency is found to get changed by \(15\;Hz\). Select the incorrect statement.

355154 In a standing wave experiment, a \(1.2\;kg\) horizontal rope is fixed in place at its two ends( \(x\) \(=0\) and \(x = 2.0\;m\)) and made to oscillate up and down in the fundamental mode, at a frequency of \(5.0\,Hz\). At \(t = 0\), the point at \(x = 1.0\;m\) has zero displacement and is moving upward in the positive direction of \(y\) - axis with a transverse velocity \(3.14\;m/s\). The standing wave equation is

355155 In a stationary wave