The maximum stress that can be applied to the material of a wire used to suspend an elevator is `(3)/(pi)xx10^(8)N//m^(2)` if the mass of elevator is 900 kg and it move up with an acceleration `2.2m//s^(2)` than calculate the minimum radius of the wire.

A man of mass 60 kg is in a lift and lift is accelerating upwards with acceleration 4 m//s^(2) . Calculate effective weight of man in lift.

The exhaust velocity of gases with respect to a small rocket of mass 25 kg. is 28xx10^(2)m//s . At what rate the fuel must burn so that it may rise up with an acceleration of 9.8 m//s^(2) ?

During Searle's experiment, zero of the Vernier sacle lies between 3.20 xx 10^(-2), and 3.25 xx 10^(-2)m of the main scale. The 20^(th) division of the Vernier scale exactly coincides with one of the main scale divisions. When an additional load of 2kg is applied to the wire, the zero of the vernier scale still lies between 3.20 xx 10^(-2), and 3.25 xx 10^(-2)m of the main scale but now the 45^(th) division of Vernier scale coincide with one of the main scale divisions. the length of the thin metallic wire is 2m and its cross-sectional ares is 8 xx 10^(-7)m^(2) . the least count of the Vernier scale is 1.0 xx 10^(-5)m . the maximum percentage error in the Young's modulus of the wire is

The frictional force of the air on the body of mass 0.25kg, falling with an acceleration of 9.2 m//s^(2) will be (g=9.8m//s^(2)) .

Two blocks of masses 2.9 kg and 1.9 kg are suspended from a rigid support S by two inextensible wires each of length 1 m. The upper wire has negligible mass and the lower wire has a uniform mass of 0.2 kg/m. Thewhole system of block, wire and support have an upward acceleration of 0.2 m/s2. g = 9.8 m/s2. The tension at the mid-point of lower wire is-

The Young's modulus of the meterial of a wire is 2xx10^(10) N m^(-2) If the elongation strain is 1% then the energy stored in the wire per unit volume is J m^(-3) is

If a body with mass(2kg) moving with acceleration that is equal to 5m/s^2 then what is the value of force experienced by body?

A force F applied to an object of mass m_(1) produces an acceleration of 3.00m//s^(2). The same force applied to a second object of mass m_(2) produces an acceleration of 1.00m//s^(2). (i) What is the value of the ratio m_(1)//m_(2) ? (ii) If m_(1) and m_(2) are combined, find their acceleration under the action of the force F.

The blocks are on frictionless inclined ramp and connected by a massless cord. The cord passes over an ideal pully. [g=10m//s^(2)] When set free, the 10n kg block slides down the ramp with acceleration of 2m//s^(2) mass M is closest to

When 115V is applied across a wire that is 10m long and has a 0.30mm radius, the current density is 1.4xx10^(4) A//m^(2) . The resistivity of the wire is