Wright State University Lake Campus/2016-6/moc

This moc course contains a small study guide with only 36 questions, taken from 5 wikiquizzes. Only two tests, with 5 questions each randomly select from the study guide in a way that is transparent to the reader. Once the software is set up, a new randomized set of exams can be constructed in a few minutes.

Wikisyllabus
The first fraction indicates how many questions from each practice quiz will be on the test. For example, the second line for Test 1 (2/9) indicates that this test will contain 2 questions from the 9 questions listed in the quiz called AstroApparentRetroMotion. The numbers 1284510 represent permalinks to the quiz on Wikiversity and serve two purposes: (1) they allow students to study online, and (2) they satisfy the collective commons copyright license by leading to the authors of the quizzes.

Test 1
1/4 from 1282320 to c24ElectromagneticWaves_displacementCurrent 2/9 from 1284510 to AstroApparentRetroMotion 1/7 from 1293955 to AstroGalileanMoons

Test 2
1/9 from 1284510 to AstroApparentRetroMotion 2/48 from 1284517 to AstroLunarphasesAdvancedB 2/4 from 1378627 to c22Magnetism_ampereLawSymmetry

/Studyguide/
If the internet is not available, students can use a studyguide that can be printed out in pdf form. The last page of that studyguide indicates which questions in the bank appear on each test.
 * View sample /Studyguide/

/Sample exams/
Exams cannot be posted on Wikiversity, but must be requested by instructors. In the sample shown below, two versions were selected for use in proctored classroom.
 * View /Sample exams/

Wikiskeleton
Wikiseleton is a debugging tool that permits developers to investigate the software that writes the exams and studyguides. Each set of exams is unique and is identified the code

 {A circlular capactitor of radius 4.2 m has a gap of 8 mm, and a charge of 45 &mu;C. What is the electric field between the plates?} {A circlular capactitor of radius 3.2 m has a gap of 13 mm, and a charge of 49 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} {A circlular capactitor of radius 4.9 m has a gap of 17 mm, and a charge of 54 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } {A circlular capactitor of radius 3.3 m has a gap of 12 mm, and a charge of 93 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} { ____ motion is in the usual direction, and _______ is motion that has temporarily reversed itself. } { Under what conditions would a planet not seem to rise in the east and set in the west? } { When the faster moving Earth overtakes a slower planet outside Earth's orbit} { Which planet spends more days in a given retrograde? } { Which planet has more days between two consecutive retrogrades? } { A planet that is very, very far from the Sun would be in retrograde for approximately ___ months.} { If a planet that is very, very far from the Sun begins a retrograde, how many months must pass before it begins the next retrograde? } { Planet comes from the Greek word for 'wanderer'. } { We know that Galileo saw Neptune, but is not credited with its discovery because} {How does the density of a Galilean moon depend on its distance from Jupiter? } {How does the mass of a Galilean moon depend on its distance from the central body? } {Does Jupiter's moon Io have craters? } {The mechanism that heats the cores of the Galilean moons is  } {Immediately after publication of Newton's laws of physics (Principia), it was possible to "calculate" the mass of Jupiter. What important caveat applied to this calculation? } {Ganymede, Europa, and Io have ratios in __________ that are 1:2:4. } {Which of Jupiter's moons has an anhydrous core? } {At 3pm a waxing crescent moon would be} {At 9pm a full moon would be} {At 6am a waning crescent moon would be} {At 3pm a full moon would be} {At 3am a waxing gibbous moon would be} {At 3pm a waning gibbous moon would be} {At 3pm a new moon would be} {At 9am a new moon would be} {At 3pm a third quarter moon would be} {At 3am a waning gibbous moon would be} {At 9am a 1st quarter moon would be} {At 3am a third quarter moon would be} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 48A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,6.7) to the point (6.7,0).} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 67A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point ( - 6.1, 6.1) to the point (6.1, 6.1).} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 84A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,9.3) to the point (9.3,9.3).} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 81A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from ( -&infin; ,6.4) to (+ &infin; ,6.4).} {A circlular capactitor of radius 3.3 m has a gap of 12 mm, and a charge of 93 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} { Which planet spends more days in a given retrograde? } { ____ motion is in the usual direction, and _______ is motion that has temporarily reversed itself. } {Ganymede, Europa, and Io have ratios in __________ that are 1:2:4. } { ____ motion is in the usual direction, and _______ is motion that has temporarily reversed itself. } {At 6am a waxing gibbous moon would be} {At 3am a waxing gibbous moon would be} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 48A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,6.7) to the point (6.7,0).} {H is defined by, B=&mu;0H, where B is magnetic field. A current of 84A passes along the z-axis. Use symmetry to find the integral, $$\int \vec H\cdot\vec{d\ell}$$, from the point (0,9.3) to the point (9.3,9.3).}
 * ntest=1: S_G
 * ntest=2: T1
 * ntest=3: T2