In the figure,the force on the wire `ABC` in the given uniform magnetic field will be (`B=2tesla`)

A wire carrying a current of 3A is bent in the form of a parabola y^2=4-x as shown in figure, where x and y are in metre. The wire is placed in a uniform magnetic field B=5hatk tesla. The force acting on the wire is

The bent wire shown in figure lies in a uniform magnetic field. Each straight section is 2.0 m long and makes an angle theta=60^(@) with the x-axis , and the wire carries a current of 2.0A . What is the net magnetic force on the wire in unit -vector rotation if the magnetic field is given by (a) 4.0 hat k T and (b) 4.0hati T ?

the force on current carrying wire placed in uniform magnetic field B as shown in figure is

In the figure shown a semicircular wire loop is placed in a uniform magnetic field B=1.0T . The plane of the loop is perpendicular to the magnetic field. Current i=2A flows in the loop in the directions shown. Find the magnitude of the magnetic force in both the cases a and b . The radius of the loop is 1.0 m

In the figure shown a semicircular wire loop is placed in a uniform magnetic field B=1.0T . The plane of the loop is perpendicular to the magnetic field. Current i=2A flows in the loop in the directions shown. Find the magnitude of the magnetic force in both the cases a and b . The radius of the loop is 1.0 m

A wire lying along y-axis from y=0 to y=1 m carries a current of 2mA in the negative y-direction. The wire lies in a non uniform magnetic fiedl given by B=(0.3T/m)yhati +(0.4Tm)yhatj . The magnetic force on the entire wire is

A current of 10 ampere is flowing in a wire of length 1.5m . A force of 15 N acts on it when it is placed in a uniform magnetic field of 2 tesla. The angle between the magnetic field and the direction of the current is

A current of 10 ampere is flowing in a wire of length 1.5m . A force of 15 N acts on it when it is placed in a uniform magnetic field of 2 tesla. The angle between the magnetic field and the direction of the current is

A long straight wire having uniform resistance per uni length lamda (ohms/metre) is bent into V -shape as shown (angle DAC=alpha ). A uniform and constant magnetic field B (tesla) exists in space which is perpendicular to the plane of V - shaped wired. Another straight wire EF of same uniform resistance per unit length lamda (ohms/metre) is pulled with constant velocity u (m/s) such that the wire EF is always perpendicular to side AD of V -shape (the wire EF is always in conducitng contact with the V - shaped wire at two points).At t=0 ( t is the time is seconds) the value of x=0 ( x= distance of wire EF from end A in metres) The magnetic force acting on the wire EF due to uniform magnetic field B at any time t (in N ) is

A conductor (shown in the figure) carrying constant current I is kept in the x-y plane in a uniform magnetic field vec(B) . If vec(F) is the magnitude of the total magnetic force acting on the conductor, then the correct statement(s) is (are)