PHYSICS 222 EXAM 2 REVIEW SI LEADER ROSALIE

TOPICS: • Kirchhoff’s laws • Magnetic Fields and Forces • Magnetic Flux • LC/LR/LRC

WHAT ARE KIRCHHOFF’S LAWS? • The sum of voltage drops through any loop are

HINT • Use the junction rule here: • Use the Loop rule around the

QUESTION FROM FALL 2013 EXAM • Three particles travel through a region of space

QUESTION FROM FALL 2013 EXAM • The three loops of wire shown in the

QUESTION FROM A PAST EXAM A circular coil lies flat on a horizontal table.

QUESTION FROM FALL 2013 EXAM A 2. 0 -m long conducting wire is formed

QUESTION FROM THE 2013 FALL EXAM • A series LR circuit consists of a

HINT: • How will the inductor affect the power, knowing we want the maximum

SOME HELPFUL EQUATIONS FOR AC POWER SOURCES (I would write these on my equation

When the current in a toroidal solenoid is changing at a rate of 0.

QUESTION FROM FALL 2013 EXAM • The figure shows four different sets of insulated

LETS SOLVE IT We know the current through each of the wires is the

QUESTION FROM A PAST EXAM • A 4. 0 m. H coil carries a

PROBLEM FROM A PAST EXAM A capacitor is charging in a simple RC circuit

LETS SOLVE IT! • E is the correct answer! • Why? As the charge

• Two round concentric metal wires lie on a tabletop, one inside the

When an external magnetic field is applied along a positive z – direction to

• There is an LC circuit with inductor L = 1 H, capacitor

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PHYSICS 222 EXAM 2 REVIEW SI LEADER: ROSALIE DUBBERKE

TOPICS: • Kirchhoff’s laws • Magnetic Fields and Forces • Magnetic Flux • LC/LR/LRC circuits • AC power sources • Mutual Inductance

WHAT ARE KIRCHHOFF’S LAWS? • The sum of voltage drops through any loop are equal to zero • The sum of currents going into any junction must equal the sum of the currents leaving it • How can we use these?

QUESTION FROM FALL 2014 EXAM

HINT • Use the junction rule here: • Use the Loop rule around the outer loop • Use the loop rule again on the inner loop

LETS SOLVE IT I 1 I 3 I 2 •

LETS SOLVE IT •

MAGNETIC FIELDS

QUESTION FROM FALL 2014 EXAM •

LETS SOLVE IT •

QUESTION FROM FALL 2013 EXAM • Three particles travel through a region of space where the magnetic field is out of the page, as shown in the figure. The electric charge of each of the three particles is, respectively,

LETS SOLVE IT •

MAGNETISM AND CURRENT

QUESTION FROM FALL 2013 EXAM • The three loops of wire shown in the figure all subject to the same uniform magnetic field that does not vary with time. Loop 1 oscillates back and forth as the bob in a pendulum, loop 2 rotates about a vertical axis, and loop 3 oscillates up and down at the end of a spring. Which loop, or loops, will have an emf induced in them?

HINT: •

LETS SOLVE IT •

QUESTION FROM A PAST EXAM A circular coil lies flat on a horizontal table. A bar magnet is held above its center with its North Pole pointing down. The magnet is fixed and does not move. What kind of current does it induce in what direction? It induces no current! The magnet isn’t moving, the coil isn’t moving, so there is no change in flux, meaning no current.

INDUCED CURRENT AND MUTUAL INDUCTANCE •

LETS SOLVE IT

MAGNETIC FLUX

QUESTION FROM FALL 2013 EXAM A 2. 0 -m long conducting wire is formed into a square and placed in the horizontal xy plane. A uniform magnetic field is oriented 30 degrees above the horizontal with a strength of 9 T. What is the magnetic flux through the square?

LR, LC, AND LRC CIRCUITS

QUESTION FROM THE 2013 FALL EXAM • A series LR circuit consists of a 2. 0 -H inductor with negligible internal resistance, a 100 -ohm resistor, an open switch, and a 9. 0 -V ideal power source. After the switch is closed, what is the maximum power delivered by the power supply?

HINT: • How will the inductor affect the power, knowing we want the maximum power possible?

LETS SOLVE IT •

QUESTION FROM THE 2013 EXAM •

HINT •

LETS SOLVE IT •

AC POWER SOURCE

SOME HELPFUL EQUATIONS FOR AC POWER SOURCES (I would write these on my equation sheet very clearly so that they are easy to understand)

QUESTION FROM PAST EXAM •

LETS SOLVE IT

MORE QUESTIONS FOR PRACTICE

When the current in a toroidal solenoid is changing at a rate of 0. 03 A/s, the magnitude of the induced emf is 15 m. V. When the current equals 1. 40 A, the average flux through each turn of the solenoid is 2. 8 m. Wb. How many turns does the solenoid have?

QUESTION FROM FALL 2013 EXAM • The figure shows four different sets of insulated wires that cross each other at right angles without actually making electrical contact. The magnitude of the current is the same in all the wires, and the directions of current flow are as indicated. For which (if any) configurations will the magnetic field at the center of the square formed by the wires be equal to zero?

LETS SOLVE IT We know the current through each of the wires is the same, which means they are creating magnetic fields (following the right hand rule) of equal magnitude. Next, we need to balance the directions C is the only possible correct answer, because it is the only one where it has 2 magnetic field vectors going “into” it and 2 coming “out” of it.

QUESTION FROM A PAST EXAM • A 4. 0 m. H coil carries a current of 5. 0 A. How much magnetic field energy is stored in the coil's magnetic field?

PROBLEM FROM A PAST EXAM A capacitor is charging in a simple RC circuit with a dc battery. Which one of the following statements about this capacitor is accurate? • A) The magnetic field between the capacitor plates is increasing with time because the charge on the plates is increasing. • B) There is a magnetic field between the capacitor plates because charge travels between the plates by jumping from one plate to the other. • C) There is no magnetic field between the capacitor plates because no charge travels between the plates. • D) There is a magnetic field between the capacitor plates, even though no charge travels between them, because the magnetic flux between the plates is changing. • E) There is a magnetic field between the capacitor plates, even though no charge travels between them, because the electric flux between the plates is changing.

LETS SOLVE IT! • E is the correct answer! • Why? As the charge on the capacitor is changing, the electric field between the two plates is changing, leading to a changing electric flux, which generates a magnetic field. However, it is important to realize that there is no actual charge moving between the plates.

• Two round concentric metal wires lie on a tabletop, one inside the other. The inner wire has a diameter of 22. 0 cm and carries a clockwise current of 16. 0 A, as viewed from above, and the outer wire has a diameter of 36. 0 cm. • What must be the direction (as viewed from above) of the current in the outer wire so that the net magnetic field due to this combination of wires is zero at the common center of the wires? It should be clockwise. The first coils creates a magnetic field vector going into the table, so the second wire needs to create a magnetic field vector coming out of the table to balance it. This means it should have a counterclockwise current

When an external magnetic field is applied along a positive z – direction to a diamagnetic material, the magnetic moment induced inside the material • A) points in a positive (+z) – direction • B) points in a negative (–z) – direction • C) iz zero • D) points in a positive (+x) - direction • E) is somewhere in the xy-plane (perpendicular to the z-direction) By definition, magnetic moment in the diamagnetic material opposes the applied field, so it will be in a negative (-z) – direction

• There is an LC circuit with inductor L = 1 H, capacitor C = 1 F and an open switch. Initially capacitor is fully charged. Now the switch is closed. How many times the voltage on the capacitor will be zero during 341 seconds?

LETS SOLVE IT

QUESTIONS?