A 50 kg motor rests on four cylindrical ...

A `50 kg` motor rests on four cylindrical rubber blocks. Each block has a height of `4 cm` and a cross-sectional area of `16 cm^(2)`. The shear modulus of rubber is `2 xx 10^(6) N//m^(2)`. A sideways force of `500 N` is applied to the motor. The distance that the motor moves sideways is

Similar Questions

Explore conceptually related problems

A 60 kg motor rests on four cylinderical rubber blocks. Each cylinder has a height of 3cm and a cross-sectional area of 15cm^(2) . The shear modulus for this rubber is 2xx10^(6)Nm^(-2) . If a sideways force of 300N is applied to the motor, how far will it move sideways?

A rubber cord of cross-sectional area 2 cm^(2) has a length of 1 m. When a tensile force of 10 N is applied, the length of the cord increases by 1 cm. What is the Young's modulus of rubber ?

The area of cross-section of steel wire is 0.1 cm^(2) and Young's modulus of steel is 2 times 10^(11)N" "m^(-1) . The force required to stretched by 0.1% of its length is

A tension of 20 N is applied to a copper wire of cross sectional area 0.01 cm^(2) , Young's modulus of copper is 1.1 xx 10^11N//m^(2) and Poisson's ratio is 0.32. The decrease in cross sectional area of the wire is

Young's modulus of rubber is 10^(4) N//m^(2) and area of cross section is 2 cm^(2) . If force of 2 xx 10^(5) dyn is applied along its length, then its final length becomes

Young's modulus of rubber is 10^(4) N//m^(2) and area of cross section is 2 cm^(-2) . If force of 2 xx 10^(5) dyn is applied along its length, then its initial l becomes

A `50 kg` motor rests on four cylindrical rubber blocks. Each block has a height of `4 cm` and a cross-sectional area of `16 cm^(2)`. The shear modulus of rubber is `2 xx 10^(6) N//m^(2)`. A sideways force of `500 N` is applied to the motor. The distance that the motor moves sideways is

Similar Questions

Recommended Questions