[" 2.Maximum stress that can be applied ...

[" 2.Maximum stress that can be applied to a wire which supports on elevator is "sigma" .Mass of lineits "],[" is "m" and it is moved upwards with an acceleration of "g/2." Minimum diameter of the "],[" (Neglecting weight of wire) must be "],[[" (a) "sqrt((2mg)/(pi sigma))," (b) "sqrt((3mg)/(2 pi sigma))," (b) "sqrt((3mg)/(2 pi sigma))]]

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Maximum stress that can be applied to a wire which supports on elevator is sigma . Mass of elevator is m and it is moved upwards with an acceleration of g//2 . Minimum diameter of wire ( Neglecting weight of wire ) must be

Maximum stress that can be applied to a wire which supports on elevator is sigma . Mass of elevator is m and it is moved upwards with an acceleration of g//2 . Minimum diameter of wire ( Neglecting weight of wire ) must be

The maximum stress that can be applied to the material of a wire used to suspend an elevator is 1.3 xx 10^(8) Nm^(-2) . If the mass of the elevator is 900 kg and it moves up with an acceleration of 2.2 ms^(-2) , what is the minimum diameter of the wire?

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.

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.

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.

If an elevator is moving vertically upwards with an acceleration a, the force exerted on the floor by a passenger of mass M is

If an elevator is moving vertically upwards with an acceleration a, the force exerted on the floor by a passenger of mass M is

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