355100 A sonometer wire resonates with a given tuning fork forming five antinodes in the presence of mass \(9\,kg\). When this mass is replaced by a mass \(M\), the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. The value of \(M\) is:

355101 A sonometer wire of length \(114\;cm\) fixed at both the ends. Where should the two bridges be placed so as to divide the wire into three segments whose fundamental frequencies are in the ratio \(1: 3: 4\) ?

355102 The given diagram shows three light pieces of paper placed on a wire that is stretched over two supports, \(Q\) and \(R\), a distance \(4 x\) apart. When the wire is made to vibrate at a particular frequency, all the pieces of paper, except the middle one, fall off the wire. Which of the following could be the wavelength of the vibration?

355103 A brick is hung from a sonometer wire. If the brick is immersed in oil, then frequency of the wire will

355104 The total length of a sonometer wire between fixed ends is \(110\;cm\). Two bridges are placed to divide the length of wire in ratio \(6: 3: 2\). The tension in the wire is \(400\;N\) and the mass per unit length is \(0.01\;kg/m\). What is the minimum common frequency with which three parts can vibrate?

355100 A sonometer wire resonates with a given tuning fork forming five antinodes in the presence of mass \(9\,kg\). When this mass is replaced by a mass \(M\), the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. The value of \(M\) is:

355101 A sonometer wire of length \(114\;cm\) fixed at both the ends. Where should the two bridges be placed so as to divide the wire into three segments whose fundamental frequencies are in the ratio \(1: 3: 4\) ?

355102 The given diagram shows three light pieces of paper placed on a wire that is stretched over two supports, \(Q\) and \(R\), a distance \(4 x\) apart. When the wire is made to vibrate at a particular frequency, all the pieces of paper, except the middle one, fall off the wire. Which of the following could be the wavelength of the vibration?

355103 A brick is hung from a sonometer wire. If the brick is immersed in oil, then frequency of the wire will

355104 The total length of a sonometer wire between fixed ends is \(110\;cm\). Two bridges are placed to divide the length of wire in ratio \(6: 3: 2\). The tension in the wire is \(400\;N\) and the mass per unit length is \(0.01\;kg/m\). What is the minimum common frequency with which three parts can vibrate?

355100 A sonometer wire resonates with a given tuning fork forming five antinodes in the presence of mass \(9\,kg\). When this mass is replaced by a mass \(M\), the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. The value of \(M\) is:

355101 A sonometer wire of length \(114\;cm\) fixed at both the ends. Where should the two bridges be placed so as to divide the wire into three segments whose fundamental frequencies are in the ratio \(1: 3: 4\) ?

355102 The given diagram shows three light pieces of paper placed on a wire that is stretched over two supports, \(Q\) and \(R\), a distance \(4 x\) apart. When the wire is made to vibrate at a particular frequency, all the pieces of paper, except the middle one, fall off the wire. Which of the following could be the wavelength of the vibration?

355103 A brick is hung from a sonometer wire. If the brick is immersed in oil, then frequency of the wire will

355104 The total length of a sonometer wire between fixed ends is \(110\;cm\). Two bridges are placed to divide the length of wire in ratio \(6: 3: 2\). The tension in the wire is \(400\;N\) and the mass per unit length is \(0.01\;kg/m\). What is the minimum common frequency with which three parts can vibrate?

355100 A sonometer wire resonates with a given tuning fork forming five antinodes in the presence of mass \(9\,kg\). When this mass is replaced by a mass \(M\), the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. The value of \(M\) is:

355101 A sonometer wire of length \(114\;cm\) fixed at both the ends. Where should the two bridges be placed so as to divide the wire into three segments whose fundamental frequencies are in the ratio \(1: 3: 4\) ?

355102 The given diagram shows three light pieces of paper placed on a wire that is stretched over two supports, \(Q\) and \(R\), a distance \(4 x\) apart. When the wire is made to vibrate at a particular frequency, all the pieces of paper, except the middle one, fall off the wire. Which of the following could be the wavelength of the vibration?

355103 A brick is hung from a sonometer wire. If the brick is immersed in oil, then frequency of the wire will

355104 The total length of a sonometer wire between fixed ends is \(110\;cm\). Two bridges are placed to divide the length of wire in ratio \(6: 3: 2\). The tension in the wire is \(400\;N\) and the mass per unit length is \(0.01\;kg/m\). What is the minimum common frequency with which three parts can vibrate?

355100 A sonometer wire resonates with a given tuning fork forming five antinodes in the presence of mass \(9\,kg\). When this mass is replaced by a mass \(M\), the wire resonates with the same tuning fork forming three antinodes for the same positions of the bridges. The value of \(M\) is:

355101 A sonometer wire of length \(114\;cm\) fixed at both the ends. Where should the two bridges be placed so as to divide the wire into three segments whose fundamental frequencies are in the ratio \(1: 3: 4\) ?

355102 The given diagram shows three light pieces of paper placed on a wire that is stretched over two supports, \(Q\) and \(R\), a distance \(4 x\) apart. When the wire is made to vibrate at a particular frequency, all the pieces of paper, except the middle one, fall off the wire. Which of the following could be the wavelength of the vibration?

355103 A brick is hung from a sonometer wire. If the brick is immersed in oil, then frequency of the wire will

355104 The total length of a sonometer wire between fixed ends is \(110\;cm\). Two bridges are placed to divide the length of wire in ratio \(6: 3: 2\). The tension in the wire is \(400\;N\) and the mass per unit length is \(0.01\;kg/m\). What is the minimum common frequency with which three parts can vibrate?