A light rod AC of length 2.00 m is suspended from the ceiling horizontally by means of two vertical wires of equal length tied to its ends. One of the wires is made of steel and is of cross-section `10^(-3) m^(2)` and the other is of brass of cross-section `2xx10^(-3) m^(2)`. The position of point D from end A along the rod at which a weight may be hung to produce equal stress in both the wires is [Young's modulus of steel is `2xx10^(11) Nm^(2)` and for brass is `1xx10^(11) Nm^(-2)`]

A light rod of length 2 m is suspended from ceiling horizontally by means of two vertical wires of equal length tied to its ends. One of the wires is made of steel and is of cross-section 0.1 cm sq. and the other of brass of cross-section 0.2 cm sq. Along the rod at what distance a weight may be hung to produce equal stresses in the wires? (Y_("Steel") = 2 xx 10^(11) Nm^(-2), Y_("Bass") = 1 xx 10^(11) Nm^(-2))

A light rod of length 2 m is suspended from the ceiling horizontally by means of two vertical wires of equal length tied to its ends. One of the wires is made of steel and is of cross section 0.1 cm^(2) . The other wire is a brass of cross section 0.2 cm^(2) . A weight is suspended from a certain point of the rod such that equal stress are produced in both the wires. Which of the following are correct?

A light rod of length of length 2 m is suspended from a ceiling horizontally by means of two vertical wires of equal length tied to its ends. One of the wires is made of steel and is of cross - section 10^(-3) m^(2) and the other is of brass of cross- section 2xx10^(-3) m^(2).x is the distance from the steel wire end, at which a weight may be hung. Y_(steel) = 2xx10^(11) Pa and Y_(brass) = 10^(11) Pa Which of the following statement(s) is /are correct ?

A light rod of length of length 2 m is suspended from a ceiling horizontally by means of two vertical wires of equal length tied to its ends. One of the wires is made of steel and is of cross - section 10^(-3) m^(2) and the other is of brass of cross- section 2xx10^(-3) m^(2).x is the distance from the steel wire end, at which a weight may be hung. Y_(steel) = 2xx10^(11) Pa and Y_(brass) = 10^(11) Pa Which of the following statement(s) is /are correct ?

A 2 m long light metal rod AB is suspened form the c eiling horizontally by means of two vertices wires of equal length, tied to the ends. One brass and has corss section of 0.3xx10^(-4)m^(2) and the other is of steel with 0.1xx10^(-4)m^(2) corss-section. In order to have equal stresses in the two wires, a weight is hung from the rod. The position of weight along the rod from end A should be.

A light rod of length L=2 m is suspended horizontally from the ceiling by two wires A and B of equal lengths. The wire A is made of steel with the area of cross section A_(S)=1xx10^(-5)m^(2), while the wire B is made of brass of cross sectional area A_(b)=2xx10^(-5)m^(2). A weight W is suspended at a distance x from the wire A as shown in figure. Take, Young's modulus of steel and brass as Y_(s)=2xx10^(11)Nm^(-2) and Y_(b)=1xx10^(11)Nm^(-2) . Determine the value of x so that equal stresses are produced in each wire.

A light rod of length L=2 m is suspended horizontally from the ceiling by two wires A and B of equal lengths. The wire A is made of steel with the area of cross section A_(S)=1xx10^(-5)m^(2), while the wire B is made of brass of cross sectional area A_(b)=2xx10^(-5)m^(2). A weight W is suspended at a distance x from the wire A as shown in figure. Take, Young's modulus of steel and brass as Y_(s)=2xx10^(11)Nm^(-2) and Y_(b)=1xx10^(11)Nm^(-2) . Determine the value of x so that equal strains are produced in each wire

Two wires of equal cross section but one made of steel and the other of copper, are joined end to end. When the combination is kept under tension, the elongations in the two wires are found to be equal. Find the ratio of the lengths of the two wires. Young modulus of steel =2.0xx10^11Nm^-2 and that of copper =1.1xx10^11Nm^-2

A steel wire 2 m long is suspended from the ceiling. When a mass is hung from its lower end, the increase in length recorded is 1 cm . Determine the strain in the wire.

Determine the force required to double the length of the steel wire of area of cross-section 5 xx 10^(-5) m^(2) . Give Y for steel = 2 xx 10^(11) Nm^(-2) .