In steel, the Young's modulus and the strain at the breaking point are `2xx10^11Nm^-2` and 0.15 respectively the stress at the break point for steel is

A 20 N stone is suspended from a wire and its length changes by 1% . If the Young's modulus of the material of wire is 2xx10^(11)N//m^(2) , then the area of cross-section of the wire will be

Three rods of copper, brass and steel are welded together to form a Y-shaped structure. Area of cross-section of each rod =4cm^2 . End of copper rod is maintained at 100^@C whereas ends of brass and steel are kept at O^@C . Lengths of the copper, brass and steel rods are 46, 13 and 12 cm respectively. The rods are thermally insulated from surroundings except at ends. Thermal conductivities of copper, brass and steel are 0.92, 0.26 and 0.12 CGS units respectively. Rate of heat flow through copper rod is

Co-ordinates of points P and Q are (-2,0) and (2,0) respectively .Find d(P,Q) .

A metallic rod breaks when strain produced is 0.2% . The Young's modulus of the material of the rod is 7xx10^(9)N//m^(2) . What should be its area of cross-section to support a load of 10^(4)N ?

The flow of water in a horizontal pipe is streamline. At as point in the tube where its cross sectional area is 10 cm ^2 , the velocity of water and pressure are 1 m/s and 2 xx 10^3 pascal respectively. Then the pressure of water at a different point , where the cross sectional area is 5 cm^2 will be

A steel bar AB of mass 10 kg and length 1 m is kept horizontal by supporting it at the two ends. Two weights of 4 kg and 6 kg are suspended from points of the bar at distances 30 cm and 80 cm respectively from the end A. The reaction at the end A is

Choose the correct options A steel bar AB of mass 10 kg and length 1 m is kept horizontal by supporting it at the two ends. Two weights of 4 kg and 6 kg are suspended from points of the bar at distances 30 cm and 80 cm respectively from the end A. The reaction at A is

The Young's modulus of a material is 2xx10^(11)N//m^(2) and its elastic limit is 1xx10^(8) N//m^(2). For a wire of 1 m length of this material, the maximum elongation achievable is

A rod of length 1000 mm and co-efficient of linear expansion alpha=10^-4 per degree is placed symmetrically between fixed walls separated by 1001 mm. Young's modulus of the rod is 10^11N//m^2. If the temperature is increased by 20^@C, then the stress developed in the rod is ("in" N//m^2):

If the shearing stressin 4.2 xx 10^8 N//m^2 and the shearing strain is 5 xx 10^-3 . The modulus of rigidity is