1. A conducting rod with length 0.5 m lies on top of a U-shaped rail that...
(8%) Problem 5: A conducting rod spans a gap of length L = 0.015 m and acts as the fourth side of a rectangular conducting loop, as shown in the figure. A constant magnetic field with magnitude B= 0.15 T pointing into the paper is in the region. The rod is pulled to the right by an external force, and moves with constant speed v= 0.015 m/s. The resistance in the wire is R = 190 2. X X Х...
A conducting rod spans a gap of length L = 0.315 m and acts as the fourth side of a rectangular conducting loop, as shown in the figure. A constant magnetic field B = 0.45 T pointing into the paper is in the region. The rod is moving under an external force with an acceleration a= At2, where A = 6.5 m/s4. The resistance in the wire is R= 110ΩPart (a) Express the magnitude of the magnetic flux going through...
a) Find the speed of the conducting rod. b)Find magnitude of the induced current in the conducting rod. c)Choose the direction of the induced current in the conducting rod d)Determine the current flowing through R1R1 A conducting rod is positioned on a pair of conducting rails. The whole system (rod and rails) is placed inside a uniform B= 2.8T magnetic field directed outward from the plane of the rail. With an external force on the rod, it moves to the...
A conducting rod of length / lies in the xy-plane with one end fixed at the origin and rotates about the z-axis with angular velocity o in a uniform magnetic flux density of strength Bo in the +-direction. Find the EMF induced across the ends of the conducting rod.
A conducting rod with a length of 25 cm is placed on a U-shaped metal wire that has a resistance R of 8.0 Ω as shown in the figure. The wire and the rod are placed in the plane of the paper. A constant magnetic field of strength 0.40 T is applied perpendicular into the paper. An applied force moves the rod to the right with a constant speed of 6.0 m/s. What is the magnitude and direction of the...
A conductive rod is placed on a U-shaped rail which are then placed in a uniform magnetic field (out of the page) of magnitude 0.500 T. The conductive rod is pulled at a constant speed of 0.500 m/s. The U-shaped rail has negligible resistance and dimension l = 0.440 m as shown in the figure. The light bulb has a resistance of 2.00 Q and the conductive rod has a resistivity of 2.00 x 10-30m and a cross-sectional area of...
A conducting rod whose length is l = 30 cm is placed on a U-shaped metal wire that is connected to a light bulb having a resistance of 5.0 s as shown in the figure. The wire and the rod are in the plane of the page. A constant uniform magnetic field of strength 0.50 T is applied perpendicular to and out of the paper. An external applied force moves the rod to the left with a constant speed of...
Consider a 1-m conducting rod attached at each end by conducting rails. The rails are connected at the top and the total loop has a resistance of 3-Ohms. (see figure below). The rod falls to the ground at a constant velocity. v. The apparatus is inside a constant magnetic field, B = 2.0 T (directed out of the page). The mass of the rod is 0.5kg. B = 2:0 T (out of R=5 1 m D VE a) What is...
5) A copper rod (length L, mass m) slides with speed v over a U-shaped wire inside a constant magnetic field (B). The loop has resistance R. a) Find the magnitude and direction of the induced current in terms of the given quantities and constants. (HINT 1: Area = x L). b) Find the force vector of the copper rod.
A conducting rod whose length is b = 1.60 m is placed on frictionless U-shaped metal rails that is connected to a lightbulb having a resistance of 4.00 N as shown in the figure. The rails and the rod are in the plane of the page. A constant uniform magnetic field of strength 2.20 T is applied perpendicular to and out of the paper. What is the magnitude of the external applied force needed to move the rod to the...