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If the magnetic field changes at the previously mentioned rate over an area of 1.91 10-2 m2, what is the induced emf?
Consider the circuit of Figure in which the switch has been open for a long time prior to t=-0. Determine the values of vc(t) before t=0.
The smaller loop of (raduis r ) and is above the larger loop (raduis R) by a distance X>>R.
If the rod has a resistance of 18ohms and the rails and connector have negligible resistance, what is the current in the rod?
Write down the maxwell's equations of electromagnetism, and state the laws they represent. Explain the meaning of all the symbols used.
The magnitude of the earth’s magnetic field at the surface of the earth is slightly less than one gauss.
Figure represents the equivalent circuit of a voltage regulator where an unregulated 12V source is used to provide a stabilised voltage.
Calculate the value of the current through the 12 V battery shown in FIGURE.Calculate the power dissipated in R1, R2 and R.
Consider a series circuit containing a resistor of resistance R and a capacitor of capacitance R connected to a source of EMF E.
Let us now consider a different RC circuit. This time, the capacitor is initially charged (q(t) = q_0), and there is no source of EMF in the circuit.
A circular loop of flexible iron wire has an initial circumference of 165.0 cm, but its circumference is decreasing at a constant rate of 12.0 cm/s.
The current in the long straight wire AB of the figure is upward and is increasing steadily at a rate of di/dt.
Hydrogen has been touted as a pollution and greenhouse gas free fuel. It can be consumed in a hydrogen-oxygen fuel cell quite efficiently.
Show that applying the Lorentz Force Law, F = q(E + V x B), yields the same result as obtained in part (b) based on Faraday's Law.
A wire of resistance 5.0 ohm is connected to a battery whose emf is 2.0V and whose potential resistance is 1.0 ohm.
Show that the crossbar approaches a steady speed of v = V0 /(BL). What is the current flowing through the circuit when this speed is reached?
A battery with emf 10.30V and internal resistance 0.50ohms is inserted in the circuit at d, with its negative terminal connected to the negative terminal.
The current is directed from terminal a of the coil to terminal b. Is the direction of the induced emf from a to b or from b to a? Explain.
The current in the first loop is clockwise and increasing - What will be the sign of the current in the second loop?
Each half of the satellite collects particles of the correct sign in sweeping thru space. Calculate the order of magnitude of the current.
Consider a loop of wire in a uniform magnetic field. The field is perpendicular to the plane of the loop, such that the magnetic field lines pass.
A loop of wire is lying flat on a tabletop. A uniform magnetic field is directed vertically UPWARDS such that it is perpendicular to the tabletop (and the loop)
What if one rotated the large coil around a vertical axis? Would the mutual indictance vary in the same way?
A bank of three resistors in parallel is connected in series with a 3.00 ohm resistor and a battery of negligible internal resistance.
What is the direction of the induced current in the loop? What is the direction of the magnetic force on the loop while it is being pulled out of the field?