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The Young's coefficient of steel is twic...

The Young's coefficient of steel is twice the Young's coefficient of brass. Two wires of the same transverse cut area and same length One wire is of steel and the other wire is of brass. Hai is hung from the same roof. If we Want to keep the lower ends at the same level, then the steel And the ratio of the load added in the brass wires will be.

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The Young's modulus of steel is twice that of brass. Two wires of the same length and of the same area of cross section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weight added to the steel and brass wires must be in the ratio of

The Young's modulus of steel is twice that of brass. Two wires of the same length and of the same area of cross section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weights added to the steel and brass wires must be in the ratio of

The Young's modulus of steel is twice that of brass. Two wires of the same length and of the same area of cross section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weight added to the steel and brass wires must be in the ratio of

The Young's modulus of steel is twice that of brass. Two wires of the same length and of the same area of cross section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weight added to the steel and brass wires must be in the ratio of

The Young's modulus of steel is twice that of brass. Two wires of same length and of same area of cross section, one of steel and another of brass are suspended from the same roof. If we want the lower ends of the wires to be at the same level, then the weights added to the steel and brass wires must be in the ratio of:

The young's modulus of steel is twice that of brass . Two wires of same length and of same area of cross section, one of steel and another of brass are suspended from the same roof .If we want the lower ends of the wires to be at the same level, then the weigths added to the steel and brass wires must be in the ratio of :

Two wire of same radius and lengh the are subjected to the same load. One wire is of steel and the other is of copper. If the Young's modulus of steel is twice that of copper, the ratio the energy stored per unit volume in steel to that of copper wire is

Two wires of same material are having same length, but one is thin and another one is thick. Young's modulus of which wire is greater?