A thin insulator rod of mass m and length L=40 cm, as shown. threshold on the surface of the plane and in an outer bend from the rails placed on the edges. It slides frictionlessly with a constant velocity of V=0,8 m/s. It rails at the lower edge of the inclined plane. to each other with a rail parallel to the bar connected so that the bars and rails are closed, a rectangular frame they form. Rail plane is Ɵ=50° angle with horizontal plane (xz plane) is doing. Before the rod begins to weld, it must be tilted above the inclined plane. It stood above the lower edge of the plane at a distance of S=4m. Inclined plane and the rod shows a magnetic field of uniform B=0,5i+0,8j+0,20k(T) is under the influence. When the bar starts to slide, at t=3s moments the bar, the edge magnetic passing through the frame surface formed by the rails and the rails at the bottom edge what is flux?
A thin insulator rod of mass m and length L=40 cm, as shown. threshold
on the surface of the plane and in an outer bend from the rails placed on the edges. It slides frictionlessly with a constant velocity of V=0,8 m/s. It
rails at the lower edge of the inclined plane. to each other with a rail parallel to the bar connected so that the bars and rails are closed, a rectangular frame they form. Rail plane is Ɵ=50° angle with horizontal plane (xz plane) is doing. Before the rod begins to weld, it must be tilted above the inclined plane. It stood above the lower edge of the plane at a distance of S=4m. Inclined plane and the rod shows a magnetic field of uniform B=0,5i+0,8j+0,20k(T) is under the influence. When the bar starts to slide, at t=3s moments the bar, the edge magnetic passing through the frame surface formed by the rails and the rails at the bottom edge
what is flux?
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