Speed of transverse wave on a straight wire (mass m, length l , area of cross-section A) is. If the young’s modulus of wire is Y, the extension of wire over its natural length, is independent of

Speed of a transverse wave on a straight wire (mass 6 g, length 120 cm and area of cross section 1.2 mm^(2) is 100 m/s) . If the Young's modulus of wire is 10^(12) Nm^(-2) the extension of wire over its natural length is :

Speed of a transverse wave on a straight wire (mass 6 g, length 120 cm and area of cross section 1.2 mm^(2) is 100 m/s) . If the Young's modulus of wire is 10^(12) Nm^(-2) the extension of wire over its natural length is :

Speed of a transverse wave on a straight wire (mass 6 g, length 120 cm and area of cross section 1.2 mm^(2) is 100 m/s) . If the Young's modulus of wire is 10^(12) Nm^(-2) the extension of wire over its natural length is :

A force F doubles the length of wire of cross-section a The Young modulus of wire is

A force F doubles the length of wire of cross-section a The Young modulus of wire is

Speed of transwerse wave of a straight wire having mass 6.0g length 60cm and area of cross- section 1.0 mm^(2) is 90 m/s. If the Young's modulus of wire is 1.6 xx 10^(11) Nm^(-2) , the extension of wire over its natural length is

Speed of a transverse wave on a straight wire ( mass 6.0 g, length 60 cm and area of cross - section 1.0 mm^(2 ) ) is 90 ms ^( - 1 ) . If the Young's modulus of wire is 16 xx 10 ^( 11) Nm ^( - 2 ) , the extension of wire over its natural length is :

Speed of a transverse wave on a straight wire ( mass 6.0 g, length 60 cm and area of cross - section 1.0 mm^(2 ) ) is 90 ms ^( - 1 ) . If the Young's modulus of wire is 16 xx 10 ^( 11) Nm ^( - 2 ) , the extension of wire over its natural length is :