The graph shows the magnetic flux (asfunction of time) through one square loopof 1.04 [m] side. The loop is exposed to amagnetic field created by an externalsource. The magnetic field is oriented tohave an angle of 22° with the normal of theloop.¢[T.m*]1.What is the value of themagnetic flux o at t 3 (s]?V [Wb]2.Calculate the magnitude of themagnetic field at t 3 [s).B =[T]3.The magnetic flux o between t= 0 [s] and t = 3 [s] is:4.Calculate the magnitude of theinduced emf in the loop between t = 0[s] and t = 3 (s).lemf| =[V]5.What is the induced currentin the loop between t = 3 [s] and t = 5 [s]?I| =V (A]

The graph shows the magnetic flux (as function of time) through one square loop of 1.04 [m] side. The loop is exposed to a magnetic field created by an external source. The magnetic field is oriented to have an angle of 22° with the normal of the loop. 1. magnetic flux at t 3 [s]? What is the value of the [Wb] 2. Calculate the magnitude of the magnetic field at t = 3 [s]. B = (T] 3. The magnetic flux between t = 0 Isl and t = 3 Isl is:

The graph shows the magnetic flux (as function of time) through one square loop of 1.04 [m] side. The loop is exposed to a magnetic field created by an external source. The magnetic field is oriented to have an angle of 22° with the normal of the loop. 1. magnetic flux at t 3 [s]? What is the value of the [Wb] 2. Calculate the magnitude of the magnetic field at t = 3 [s]. B = (T] 3. The magnetic flux between t = 0 Isl and t = 3 Isl is: