A rigid rod of mass m and length L is suspended from two identical springs of negligible mass as shown in the diagram above. The upper ends of the springs are fixed in place and the springs stretch a distance d under the weight of the suspended rod.
a. Determine the spring constant k of each spring in terms of the other given quantities and fundamental constants.
As shown above, the upper end of the springs are connected by a circuit branch containing a battery of emf ε and a switch S so that a complete circuit is formed with the metal rod and springs. The circuit has a total resistance R, represented by the resistor in the diagram. The rod is in a uniform magnetic field directed perpendicular to the page. The upper ends of the springs remain fixed in place and the switch S is closed. When the system comes to equilibrium, the rod has been lowered an additional distance Δd.
b. With reference to the coordinate system shown above on the right, what is the direction of the magnetic field?
c. Determine the magnitude of the magnetic field in terms of m, L, d, Δd, ε, R, and fundamental constants.
d. When the switch is suddenly opened, the rod oscillates. For these oscillations, determine the following quantities in terms of d, Δd, and fundamental constants:
i. The period
ii. The maximum speed of the rod