An wire can tolerate a maximum weight of 100kg just before it tears.The wire is cutted in two equal parts.The maximum weight the each part can tolerate is—

A spring of force constant K is cut into two equal parts. The force constant of each part is

Before snapping a wire can bear a load of 100kg. The wire is cut into two parts .Now the maximum load that can be withstood by each part of the wire is

A cable that can support a load W is cut into two equal parts. The maximum load that can be supported by either part is

A wire is cut into two parts.What will be the change in Young'modulus of the parts?

A spring of force constant k is cut into two equal parts The force constant of each part of the spring will be

A 60 cm long solenoid of radius 4.0 cm has 3 layers of windings of 300 turns each. A.2.0 cm long wire of mass 2.5g lies inside the solenoid (near its centre) normal to its axis, both the wire and the axis of the solenoid are in the horizontal plane. the wire is connected through two leads parallel to the axis of the solenoid to an external battery which supplies a current of 6.0A in the wire. What value of current (with appropriate sense of circulation) in the windling of the solenoid can support the weight of the wire ? g=9.8m*s^(-2) .

A permanent bar magnet is cut transverse to its axis , into two equal parts. What will be the magnetic moment of each part relative to that of the initial uncut magnet ?

A wire of 15 Omega resistance is gradually stretched to double its length . IT is then cut into two equal parts. These parts are then connected in parallel across a 3.0 volt battery .Find the current drawn from the battery.

Length and force constant of a spring are L and K respectively. When a force T is applied on it an elongation x is produced. Now the spring is cut into two equal parts and they are connected parallel with each other and the same force T is applied on it. What will be the elongation now?

A metallic wire of resistance R is folded into two equal parts and then wound well, what will be new resistance then?