Could you please help me:

2 1 point This diagram shows a conducting loop connected to a galvanometer. The large arrows represent a uniform magnetic field, and show that the magnetic field magnitude is decreasing from, 10 T down to 5 T over a two-second period. As this happens, current flows and so the galvanometer needle deflects as shown. Suppose now that the magnetic field is oriented in a different direction, as shown here: While it is in this orientation, the magnetic field increases from 8 T to 13 T over a two-second period. In that case, during the time the field is increasing, C no current flows O the same amount of current flows as in the first case, and it flows in the same direction more current flows than in the first case, but it flows in the same direction less current flows than in the first case, but it flows in the same direction the same amount of current flows as in the first case, but it flows in the opposite direction more current flows than in the first case, and it flows in the opposite direction less current flows than in the first case, and it flows in the opposite direction A conducting loop is in a region where there is a magnetic eld, "Initial" refers to the situation at a given moment in time, and "nal" refers to the situation a few seconds later. Consider the following cases (9 = angle between B and normal to plane of loop): (1) Emma! : 57': Km: : 57' 8mm : (2) 3...": = IT: Hm: = IT 9......4 = 0": 9m: = 90 (3) 3...\": Z 1 ' Eli-a1: IT 9mm! 1 0\"; 9m! = 0" The cases in which a current will ow in the conducting loop are: one only two only three only one and two only one and three only two and three only all three cases none of the three cases 1 point )9 Suppose you lower a large bar magnet on top of the loop described in #1, with the south pole of the magnet closer to the loop (i.e., long axis [NS axis] of the magnet perpendicular to plane of loop). What should you expect to happen: Loop will be attracted toward the magnet. Loop will be repelled away from the magnet. Loop will experience no attraction, no repulsion, and no torque. Loop will be neither attracted nor repelled, but will experience a torque. 1 1 point A proton is moving along the y axis toward positive y. A magnetic field pointing toward positive z is switched on. The proton then: O experiences no force experiences a force pushing it toward positive x experiences a force pushing it toward negative x experiences a force pushing it toward positive y experiences a force pushing it toward negative y OOO experiences a force pushing it toward positive z experiences a force pushing it toward negative z