An aluminium wire and a steel wire of same cross-sectional of `10^(-2)cm^(2)` were connected together. A 10 kg block loaded on the compound wire as shown in figure. Waves are set up in the compound wire. The minimum frequency of excitation for which standing waves are observed with point A as a node is `[L_(1)=60cm,L_(2)=86.6cm]` density of aluminium `=2.6g//cm^(3)` and of steel=`7.8g//cm^(3)`]

A steel wire of length 50sqrt(3) cm is connected to an aluminium wire of length 60 cm and stretched between two fixed supports. The tension produced is 104 N , if the cross section area of each wire is 1mm^(2) . If a transverse wave is set up in the wire, find the lowest frequency for which standing waves with node at the joint are produced . (density of aluminimum = 2.6 gm//cm^(3) and density of steel = 7.8 gm//cm^(3) ).

Figure shows an aluminium wire of length 60 cm joined to a steel wire of length 80 cm and stretched between two fixed supports. The tension produced is 40 N . The cross-sectional area of the steel wire is 1.0 mm^(2) and that of the aluminimum wire is 3.0 mm^(2) The minimum frequency of a tuning fork which can produce standing waves in the system with the joint as a node is 10P (in Hz ) the find P . Given density of aluminimum is 2.6 g//cm^(3) and that of steel is 7.8 g//cm^(3) .

An aluminium wire of cross-sectional area (10^-6)m^2 is joined to a steel wire of the same cross-sectional area. This compound wire is stretched on a sonometer pulled by a weight of 10kg. The total length of the compound wire between the bridges is 1.5m of which the aluminium wire is 0.6 m and the rest is steel wire. Transverse vibrations are setup in the wire by using an external source of variable frequency. Find the lowest frequency of excitation for which the standing waves are formed such that the joint in the wire is a node. What is the total number of nodes at this frequency? The density of aluminium is 2.6 xx (10^3) kg//m^3 and that of steel is 1.04 xx 10^(4) kg//m^2 (g = 10m//s^2)

The self inductance of a solenoid that has a cross-sectional area of 1 cm^(2) , a length of 10 cm and 1000 turns of wire is

A wire of 50 cm long, 1mm^(2) in cross-section carries a current of 4 A, when connected to a 2 V battery, the resistivity of wire is

A wire of 50 cm long, 1mm^(2) in cross-section carries a current of 4 A, when connected to a 2 V battery, the resistivity of wire is

A long straight wire is carrying a current of 25 A. A squre loop of side length 10 cm carrying a current of 15 A, is placed 2 cm from the wire as shown in figure. The force on the loop is

Two wires A & B bend like as shown in figure. 'A' has radius 2 cm and current 1A wire B has radius 4cm & current 3A then ratio of magnetic field

A 50 cm long wire of mass 20 g suports a mass of 1.6 kg as shown in figure. Find the fundamental frequency of the portioin of the strig between the wall and the pulley. Take g=10 ms^-2 .

Two wires made of tinned copper having identical cross section ( = 10^(-6) m^(2)) and lengths 10 and 15 cm are to be used as fuses. Show that the fuses will melt at the same value of current in each case.